To see the other types of publications on this topic, follow the link: Seedling recruitment.
Dissertations / Theses on the topic 'Seedling recruitment'
Create a spot-on reference in APA, MLA, Chicago, Harvard, and other styles
Consult the top 50 dissertations / theses for your research on the topic 'Seedling recruitment.'
Next to every source in the list of references, there is an 'Add to bibliography' button. Press on it, and we will generate automatically the bibliographic reference to the chosen work in the citation style you need: APA, MLA, Harvard, Chicago, Vancouver, etc.
You can also download the full text of the academic publication as pdf and read online its abstract whenever available in the metadata.
Browse dissertations / theses on a wide variety of disciplines and organise your bibliography correctly.
1
Henshaw, Alex. "Factors Influencing Future Canopy Composition at Tiromoana Bush, North Canterbury, New Zealand." Thesis, University of Canterbury. School of Forestry, 2012. http://hdl.handle.net/10092/7092.
Full textAbstract:
The purpose of this study was to investigate seedling recruitment beneath kanuka forest at Tiromoana Bush, North Canterbury. The regeneration of broadleaved tree species is evident throughout Tiromoana Bush. This research aimed to quantify the biotic and abiotic factors influencing the distribution of small and large seedlings of canopy tree species, their relative growth rates, their survival, abundance and composition throughout the forest understorey of Tiromoana Bush. Tiromoana Bush is a forest restoration area of 410 hectares adjacent to the Kate Valley landfill.
To determine the future tree species composition at Tiromoana Bush, seedling recruitment, growth and survival was quantified through remeasuring tagged seedlings in 26 permanent vegetation monitoring plots located in the major forest patches at Tiromoana Bush. In addition, seedling data from 78 temporary vegetation survey plots established in three major forest patches were used to assess the influence of different factors on seedling abundance.
At Tiromoana Bush, the most common canopy tree species as seedlings in the permanent vegetation monitoring plots was mahoe followed by fivefinger. Mahoe seedling density was significantly affected by canopy openness, distance to seed sources, light index, shrub cover and slope, but not by aspect, basal area and time. For fivefinger, seedlings increased in abundance with time, but the difference was not statistically significant. The relative growth rate of mahoe in the 20-49cm height class (in which most seedlings occurred) was significantly affected by shrub cover, light index and canopy
vii
openness. Mahoe seedling recruits were significantly affected by light index and canopy openness. Survivability of mahoe was affected by aspect. For fivefinger, individual relative growth rates were significantly affected by canopy openness and light index.
Similar results were found for tree species seedlings present in the temporary survey plots provided with mahoe and fivefinger again the most common species, followed by kohuhu. Light index significantly affected golden akeake small seedlings as well as canopy openness. Light index significantly affected ngaio large seedling distribution. Aspect was the only significant factor for kohuhu large seedling distribution. Distance from seed sources significantly affected fivefinger small seedling distribution as seedlings are dependent upon dispersal away from the parent trees. Slope significantly affected the distribution of red matipou small seedlings.
The most important environmental attribute influencing seedling abundance is light. This is evident in both the permanent seedling monitoring plots and the temporary vegetation survey plots. Based on data from the temporary vegetation survey plots, mahoe, fivefinger and kohuhu are most abundant suggesting that these three canopy tree species will dominate the forest canopy at Tiromoana Bush once the kanuka starts to senesce.
2
Mansor, Asyraf. "Determinants of Seedling Recruitment in Mimosa Pigra L." Thesis, Imperial College London, 2008. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.506819.
Full textAbstract:
Mimosa pigra L., a semi-aquatic woody legume, is a well known invasive plant in the tropics. Originating from Latin America, this species has spread to various localities around the globe and caused serious problems, both environmental and economical, in its new environment. I carried out a survey to assess the current status of Mimosa infestation in Peninsula Malaysia. Manipulative field experiments on the effect of soil disturbance, competitor identities, sown seed densities and defoliation on Mimosa seedling recruitment and survival were conducted as well. I found that although disturbance may not be an essential factor for seedling emergence in Mimosa, it significantly increase seedling establishment and survival. Recruitment in Mimosa was negatively affected when seedlings were grown together with vine (Centrosema) and creeper (Ipomoea), suggesting the importance of interspecific competition in reducing seedling emergence and establishment. The seed-sowing treatment showed that recruitment in Mimosa was both seed-limited and microsite-limited. While the number of seedlings emerging increased with the density of sown seeds, the proportion of emergence remained constant across the sown seed densities. Herbivory (through artificial defoliation) reduced seedling survival in Mimosa, although some seedlings proved to be resilient to even the highest intensity and frequency of defoliation. In general, I argued that Mimosa invasion in Peninsula Malaysia is not a serious problem since its populations were mostly restricted to disturbed ground and abandoned land. I would like to suggest that current best course of option is to continue monitoring its population and evaluate its spread, as control of established stands without destruction of the seed bank is likely to cause insignificant impact on subsequent population. One recommendation is to restrict the movement of topsoil from Mimosa infested sites. Future researches, if they were to be conducted shoUld try to establish method(s) that will reduce the Mimosa seed bank.
3
Welling, P. (Pirjo). "Regeneration by seeds and vegetation structure in alpine plant communities, subarctic Finland." Doctoral thesis, University of Oulu, 2002. http://urn.fi/urn:isbn:951426861X.
Full textAbstract:
Abstract
The aims were to examine the importance of regeneration by seeds, the
influence of plant traits and disturbances, and the role of seed-seedling
conflicts in regeneration and in the determination of vegetation structure.
The study was carried out at in a subarctic alpine area (Kilpisjärvi
69°01'N 20°50E', Finland).
Seed bank and seedling densities were high in many plant communities
(ranges 99 -1109 viable seeds/m2 and 0.2-227
seedlings/m2, respectively). Effective seedling
recruitment is reflected in vegetation as a high proportion of plants with
poor or no vegetative reproduction ability. This development may take place
in meadows and snowbeds where herbs (e.g. Gnaphalium
supinum, Sibbaldia procumbens,
Veronica alpina and Viola
biflora) are abundant. On the other hand, the low proportion of
these plants in heath vegetation reflects ineffective seedling
recruitment.
Floristic similarities between the consecutive phases in the
regeneration pathway may be low despite effective seedling recruitment.
Clonality, large and small seed sizes and appendaged diaspores limit the
movement of species from phase to phase.
Generally, disturbances facilitate effective regeneration by seeds.
Grazing promotes species with large seed banks and is therefore one reason
for high seed bank densities. Freezing and melting processes negate a
negative influence of altitude on seed bank densities in the phase of
seedlings. However, if disturbances are severe and continuous and the soil
is compact, unstable or dry, disturbances are not beneficial. The same is
true if there is a shift in the species composition of seedlings from gaps
to closed vegetation. This phenomenon occurred in a rich meadow.
Seed-seedling conflicts limit regeneration by seeds in low-herb
snowbeds and Ranunculus glacialis-Gymnomitrion
snowbeds. Vegetative reproduction and infrequent pulses of seedling
recruitment negate an influence of short-term seedling recruitment on the
spatial structure of vegetation. Extreme conditions, such as low
temperatures, instability of the soil and late snowmelt modify the
influence of factors that are important in more moderate conditions.
To conclude, all transitions limit regeneration by seeds. However,
favourable conditions (e.g. moist conditions in a meadow) partly eliminate
the obstacles against seedling emergence. Regeneration by seeds therefore
has a major impact on the dynamics and structure of vegetation. In heath
vegetation, where bare soils are dry and the moss cover is thick, large
seed banks and seed rains do not guarantee effective seedling recruitment.
The regeneration process is reduced in the early phases, and plants that reproduce primarily by seeds have a minor role in vegetation. The accumulation of seed banks is effective in these circumstances.
4
Clark, Connie Jane. "Factors that determine patterns of seedling recruitment in an Afrotropical forest." [Gainesville, Fla.] : University of Florida, 2009. http://purl.fcla.edu/fcla/etd/UFE0024894.
Full text
5
Dyson, David Samuel Loewenstein Edward F. "Influence of competition on longleaf pine seedling recruitment in selection silviculture." Auburn, Ala., 2010. http://hdl.handle.net/10415/2045.
Full text
6
Lönnberg, Karin. "Effects of seed size and habitat on recruitment patterns in grassland and forest plants." Doctoral thesis, Stockholms universitet, Botaniska institutionen, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-82384.
Full textAbstract:
A trade-off between seed size and seed number is central in seed ecology, and has been suggested to be related to a trade-off between competition and colonization, as well as to a trade-off between stress tolerance and fecundity. Large seeds endure hazards during establishment, such as shading, drought, litter coverage and competition from other plants, better than do small seeds, due to a larger amount of stored resources in the seed. Small seeds, however, are numerous and small-seeded species are therefore more fecund. Moreover, a pattern with small-seeded species being associated with open habitats and large-seeded species being associated with closed habitats has been reported in the literature. In this thesis I assess effects of seed size on recruitment, and how relationships between seed size and recruitment may relate to habitat conditions. Seed sowing experiments were performed in the field to assess inter- and intra-specific relationships between seed size and recruitment in open and closed habitats (Paper I and II). Seed removal experiments were performed in the field to assess what effects seed predation may have on a relationship between seed size and recruitment (Paper III). A garden experiment was performed based on contests between larger-seeded and smaller-seeded species, in order to examine different models on co-existence of multiple seed size strategies. The results showed that there was a weak positive relationship between seed size and recruitment in the field, and that this relationship was only weakly and inconclusively related to habitat (Paper I and II). Seed removal was negatively related to seed size in closed habitats and unrelated to seed size in open habitats (Paper III). This indicates that any positive relationship between seed size and recruitment may be an effect of higher seed removal in small-seeded species. However, when grown under controlled conditions in a garden experiment, there was a clear advantage of larger-seeded species over smaller-seeded species (Paper IV). This advantage was unaffected by seed density, indicating that there was no competitive advantage of the larger-seeded species. Instead, indirect evidence suggests that larger-seeded species exhibit higher tolerance to stress.<br><p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: Manuscript. Paper 4: Accepted.</p><p> </p>
7
Plenzler, Michael A. "Seedling Recruitment and Establishment of Lupinus perennis in a Mixed-Management Landscape." Bowling Green State University / OhioLINK, 2008. http://rave.ohiolink.edu/etdc/view?acc_num=bgsu1214238925.
Full text
8
Johnson, Andrew James. "Unexplored Aspects of the Biotic Filter to Seedling Recruitment in Aquatic Environments." W&M ScholarWorks, 2019. https://scholarworks.wm.edu/etd/1563898631.
Full textAbstract:
Sexual reproduction provides submerged aquatic vegetation (SAV) populations unique opportunities for dispersal, genetic mixing, and resilience in the event of catastrophic population declines. Relative to asexual reproduction, sexual reproduction is a risky resource investment and can have a lower probability of success. A wide variety of abiotic and biotic interactions common in both terrestrial and aquatic environments can lead to significant mortality of seeds and seedlings. The goal of this dissertation is to explore the diversity of biological interactions that influence seed and seedling survival in SAV that drive the population dynamics and restoration success of SAV species. A combination of survey and experimental methods were used to test if three biological interactions, disturbance, herbivory, and competition, compromised seedling recruitment for three different SAV species growing in three different coastal environments. Chapter One explored the influence of sediment bioturbators on seedling establishment for the seagrass Posidonia australis in a marine environment. Field surveys demonstrated that dispersed seeds of P. australis overlap with a suite of sediment bioturbators that disturb the sediment in the coastal lagoons of Western Australia. The movement of sediment bioturbators found in these areas (sand dollars, sea stars, and heart urchins) dislodged and moved recently settled P. australis seeds. The overlap in habitat suitability between these animals and P. australis seeds suggests high densities of these animals consistently disturb non-dormant P. australis seeds and may act as a bottleneck to seedling recruitment. Chapter Two explored the role of grazers on seedling recruitment of a freshwater angiosperm. Field surveys recorded high grazing levels of isolated Vallisneria americana propagules in oligohaline areas of the James and Chickahominy Rivers, VA. Camera surveys identified the blue crab, Callinectes sapidus, as a likely herbivore. Subsequent surveys and experiments suggested C. sapidus in this system consumes SAV as part of their diet. The emergence of non-native SAV in the system, but not V. americana, suggests grazing prevents the recruitment of some SAV, but not others. Chapter Three evaluated interactions between adult plants and seedlings and how they impacted seedling establishment of an estuarine seagrass species. Field surveys consistently recorded seedlings establishing among existing Zostera marina shoots in a meso/polyhaline region of Chesapeake Bay, VA. Concurrent experiments indicated that seed supply influenced seedling establishment rates in some areas. Further surveys and experiments showed that negative interactions between seedlings and adult shoots influenced the subsequent survival of these seedlings within existing Z. marina meadows. Results from the research studies in this dissertation, conducted across three diverse coastal habitats, demonstrate that interactions between SAV seeds or seedlings and other biota can be very important in ultimately determining seed or seedling survival. The diverse mechanisms through which biota compromise seedling recruitment and sexual reproduction for SAV observed here suggest there may be many additional, unexplored biological interactions affecting successful sexual recruitment for many SAV species. Because sexual reproduction provides substantial benefits to SAV populations, incorporating risks associated with seedling recruitment into population models and restoration strategies may help better predict SAV population health, resiliency and expansion as well as help optimize SAV restoration efforts.
9
Venn, Susanna Elizabeth, and Susanna Venn@nt gov au. "Plant recruitment across alpine summits in south-eastern Australia." La Trobe University. School of Life Sciences, 2007. http://www.lib.latrobe.edu.au./thesis/public/adt-LTU20080526.160815.
Full textAbstract:
This thesis investigated aspects of plant recruitment across an altitudinal gradient of mountain tops in the Victorian Alps, Australia, and provides a baseline for the patterns and processes of alpine plant recruitment in the absence of large-scale disturbance.
The patterns in alpine vegetation across the study sites were described in relation to abiotic environmental factors. Temperatures were lower and precipitation was higher at the high altitude sites. The vegetation did not differ significantly between the sites, although sites at low altitudes were shrubbier than those at high altitudes. Analysis of the soil seed bank revealed high mean densities of germinable seed (80 to 1400 seeds m-2) across the gradient of sites. The similarity between the seed bank samples and the standing vegetation was low (qualitative similarity: 0.08 to 0.2; quantitative similarity: 0.03 to 0.19).
In laboratory germination experiments, I found rapid and substantial germination. Final percent germination was above 90% for most species. One species, Aciphylla glacialis, showed evidence of dormancy mechanisms. In subsequent experiments, I found that innate primary seed dormancy in this species could be broken with cold-wet stratification.
There were no significant patterns in natural seedling recruitment across the altitudinal gradient. Similarities between the seedling flora and the standing vegetation
were low (qualitative similarity: 0.18 to 0.45: quantitative similarity 0.04 to 0.09). Mean seedling density was best predicted by a combination of soil wilting point, altitude and plant litter. In some cases, seedling density was greater than 80 seedlings m-2.
The relative importance of either negative (competitive) or positive (facilitative) interactions between seedlings with adjacent vegetation were investigated in relation to seed germination, seedling growth and seedling survival. Facilitative interactions were common at the higher altitude sites. At lower altitudes, facilitative and competitive interactions were common. Without close neighbours at high altitudes, seedlings were unlikely to survive into their second year.
An understanding of plant recruitment can provide a useful basis for predicting species responses to large-scale disturbance and climate change.
10
Sagra, Javier, Daniel Moya, Pedro Plaza-Álvarez, et al. "Predation on Early Recruitment in Mediterranean Forests after Prescribed Fires." MDPI AG, 2017. http://hdl.handle.net/10150/625399.
Full textAbstract:
Wildfires play a significant role in many different elements of Mediterranean forest ecosystems. In recent years, prescribed fires have started being used more often as a fuel reduction tool, and also as silvicultural treatment to help the regeneration and health improvement of stands. Apart from the fact that fire may alter microsite conditions, very little is known about the impact of prescribed burning on natural regeneration or plant species renewal in Mediterranean pine forests. Likewise, knowledge about the influence of seedling predators on post-fire regeneration is still scarce. In this study, we aimed to compare the effects of seedling predation on recruitment in earlier stages after prescribed burnings in three pine stands in Central Spain: a pure stand of Pinus nigra; a mixed stand of Pinus halepensis and Pinus pinaster and a mixed stand P. nigra with P. pinaster. In situ we superficially sowed seeds from two different species. In the sowing experiment, we tested two different seed provenances (drier and more humid spanish regions) for each species. In all, 60 plots (30 burned, 30 unburned) per site, with 10 seeding units per plot and more than 20,000 seeds, were used in the whole study. Seedling predation was evaluated by replicating the seeding units inside and outside a wire cage as protection for rodents and birds. Our results showed that prescribed fires alter initial seedling predation intensity: predation was significantly higher in the seedlings grown in the plots affected by prescribed fire. The individuals sown before the fire passed showed slightly more predation than those sown after fire passage. Provenances did not appear as an important predation drive. Understanding the role of the predation associated with these treatments can help improve Mediterranean pine forest management.
11
Van, Etten Erica. "Seedling recruitment of large-seeded tropical trees planted as seeds in the Ecuadorian Amazon." [Gainesville, Fla.] : University of Florida, 2009. http://purl.fcla.edu/fcla/etd/UFE0025046.
Full text
12
Poulsen, John Randolph. "Logging and hunting alter patterns of seed dispersal and seedling recruitment in an Afrotropical forest." [Gainesville, Fla.] : University of Florida, 2009. http://purl.fcla.edu/fcla/etd/UFE0024893.
Full text
13
Alzérreca-Angelo, Humberto. "Spatial and Temporal Dynamics of Plant Populations in Salt-Desert Shrub Vegetation Grazed by Sheep." DigitalCommons@USU, 1996. https://digitalcommons.usu.edu/etd/4661.
Full textAbstract:
I studied the effect of moderate sheep grazing on a shadscale plant community at the Desert Experimental Range, southwestern Utah, USA, using a 61-yr data set with two grazing treatments (yes vs. no), two seasons (spring vs. winter), and two soil types (loamy-skeletal vs. coarse-loamy). I studied precipitation, total species cover, annuals, shrub survival, seedling recruitment, plant succession, and plant spatial relationships./p>
Precipitation showed high variability (CV=31%) masking on short-term cycles, resulting in study intervals with average (1935-58), dry (1958-69), driest (1969-75), and wet (1980-94[5]) regimes. Total cover in both grazed and ungrazed pastures increased between 1935 and 1975 before decreasing to 1994. Treatments diverged with time, however, so cover was higher in ungrazed pastures in 1975 and 1994. Individually, Atriplex confertifolia decreased from 1958-94 and Ceratoides lanata from 1975-94. Artemisia spinescens increased in ungrazed pastures from 1935-94, while remaining very low in grazed pastures. Grasses increased from 1935-94 with little grazing effects. Annuals increased from absence in 1935 to 63% frequency in 1994; precipitation may be related to this increase. Grazing and soil type had few long-term or short effects on shrub survival. Similarly, only C. lanata showed a microhabitat effect, with greater seedling survival in vegetated than open patches. Seedling recruitment was positively correlated with precipitation. Only A. confertifolia recruitment responded to grazing; it was higher in grazed pastures. A fuzzy graph analysis showed a moderate grazing effect on succession. Clumped distributions were common and were unaffected by grazing but increased in wet years. Plant establishment occurred disproportionally in sites occupied or formerly occupied by plants, suggesting facilitation. Negative interference, however, was suggested by new recruitment occurring further from larger existing individuals. Moderate grazing had little effect on spatial relationships.
In conclusion, the multivariate approach yielded broader conclusions than any individual factors. Although some factors showed more grazing effects than others, grazing could not completely explain observed changes; climate and inherent plant attributes must also be considered. Management at moderate grazing levels may only play a limited role in shadscale communities.
14
Woods, Natasha Nicole. "The Relative Importance of Abiotic and Biotic Factors for Seedling Establishment in the Colorado Desert, CA." The Ohio State University, 2015. http://rave.ohiolink.edu/etdc/view?acc_num=osu1429882344.
Full text
15
Albro, Sandra Leigh. "Effects of Canopy Adult Trees on Seedling Recruitment of American Beech and Sugar Maple in Fragmented Forests." Cleveland, Ohio : Case Western Reserve University, 2009. http://rave.ohiolink.edu/etdc/view?acc_num=case1238695571.
Full text
16
Manley, Stephen R. "The Roles of Dispersal and Predation in Determining the Seedling Recruitment Patterns of a Zostera marina System." W&M ScholarWorks, 2014. https://scholarworks.wm.edu/etd/1539617948.
Full textAbstract:
Seed dispersal and seed predation are two important processes in the early life history of plants. The interaction between these two processes influences the population recruitment from a parent plant. These mechanisms have been studied extensively in terrestrial plants and have resulted in various models to describe plant recruitment (e.g. Janzen-Connell, Hubbell, McCanny). However, seed dispersal and predation may also influence the population recruitment of marine angiosperms, such as Zostera marina (eelgrass). The objectives of this study were to determine: 1.) the patterns of seed dispersal as a function of distance from the seed source, 2.) the predation pressure on seeds within and outside the parent bed, 3.) the distribution of seedlings as a function of distance from the parent bed, and to test if this distribution corresponds to the seed dispersal and predation pressure, and 4.) how the observed patterns compare with simulated seedling establishment using a model developed by Nathan and Casagrandi (2004).
Seed densities were highest within, and adjacent to, vegetated areas. However, some seeds were found up to 320m from the closest seed source. Seed predation was random throughout the study area; there was no significant difference in predation pressure between vegetated and unvegetated areas. Seedling densities in the spring of 2014 were highly correlated with seed densities found in the previous year, which also suggests that seed predation has a limited impact on population recruitment. The high reproductive output of Z. marina as well as the random distribution of seed predators in both vegetated and unvegetated areas may explain how many seeds are able to escape predation.
These results are consistent with the invariant survival model, first described by McCanny, which states that seed predation has no spatial trend. Therefore, a majority of the dispersed seeds remain close to the parent bed, while a small portion of seeds disperse farther from the source. This is the first study of marine angiosperms to address seedling recruitment as a function of dispersal and predation from a parent source and has important implications in recovery and restoration of these systems following disturbances.
17
Woods, Steven Richard. "Woody plant proliferation in desert grasslands: perspectives from roots and ranchers." Diss., The University of Arizona, 2014. http://hdl.handle.net/10150/321001.
Full textAbstract:
The widespread proliferation (or 'encroachment') of trees and shrubs in grasslands over the past 150 years is embedded in both natural and human systems. This dissertation addressed the following ecological and ethnoecological questions. Can seedling traits help us understand why so few woody species have encroached markedly into North American desert grasslands, and the conditions likely to promote their proliferation? What is the role of informal knowledge of the environment in efforts to manage woody plant abundance? Woody seedling survival often depends on rapid taproot elongation. In glasshouse experiments, initial water supply markedly affected taproot elongation in young seedlings. Response patterns may help explain recruitment patterns in Larrea tridentata, the principal evergreen woody encroacher in Sonoran and Chihuahuan Desert grasslands, and in Prosopis velutina and Prosopis glandulosa, the principal deciduous woody encroachers in Sonoran and Chihuahuan Desert grasslands, respectively. P. velutina and P. glandulosa showed greater sensitivity to water supply levels at the seedling stage than did the similar, related non-encroachers, Acacia greggii, Parkinsonia florida and Parkinsonia aculeata . This enabled the Prosopis species to overcome lower seed and seedling biomass to achieve similar taproot length to A. greggii and the Parkinsonia species. Consequently, population level advantages of lower seed mass, such as high seed numbers, may enhance encroachment potential in the Prosopis species without being negated by corresponding seedling survivorship disadvantages. I used semi-structured interviews to document informal rangeland monitoring by ranchers in southeast Arizona. Ranchers used qualitative methods to assess forage availability, rangeland trends and responses to woody plant suppression measures. Informal rangeland assessments informed ranchers' management decisions on sub-yearly, yearly and multi-year timescales. Informal monitoring appeared largely compatible with formal monitoring and natural science, and most ranchers integrated the two systems. Informal rangeland assessments can be valuable in planning woody plant suppression measures, particularly in light of the small number of formal long-term studies of brush suppression. Ecological studies may help predict places and periods of relatively rapid encroachment, perhaps enabling early or pre-emptive brush suppression measures. Thus, both seedling ecology and informal environmental knowledge are likely to be useful in managing woody plant populations in desert grasslands.
18
Johansson, Veronika A. "Recruitment ecology and fungal interactions in mycoheterotrophic Ericaceae." Doctoral thesis, Stockholms universitet, Institutionen för ekologi, miljö och botanik, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-109160.
Full textAbstract:
There are generally two contrasting alternatives to what limits recruitment in plants, namely the availability of seeds (seed limitation) or the quality or quantity of suitable sites (microsite limitation). Dust seeds, the smallest existing seeds, lack or have minimal nutrient reserves. During germination and initial development they consequently parasitize on mycorrhizal fungi. This is called mycoheterotrophy, and can vary in degree of fungal dependency in adult plants from full, partial or initial mycoheterotrophy. The aim of this thesis was to investigate the recruitment ecology of mycoheterotrophic Ericaceae (tribe Pyroleae) species with dust seeds, and to determine what limits their recruitment. The investigated species were: Chimaphila umbellata, Moneses uniflora, Orthilia secunda, Pyrola chlorantha, P. minor and P. rotundifolia. This aim was achieved by combining field experiments (seed sowing) with isotope analysis and fungal host pyrosequencing. Results provide evidence that the species in Pyroleae are heterogeneous, not only with regard to their degree of mycoheterotrophy, but also concerning germination and early seedling development. A combination of microsite and seed limitation is thus likely to be of importance for all studied species, but the relative importance of these limitations varies among species. Despite having adaptations for wind dispersal the majority of the seeds were deposited in close vicinity of the seed source. But with high seed production at least some seeds should be able to disperse long-distance. Seedlings of all studied species were found to associate with a wide range of ectomycorrhizal fungi, at least during their initial developmental stages. There seems to be a tendency for host narrowing in some Pyroleae species, but not as strict as the host specialization seen in fully mycoheterotrophic Monotropa hypopitys, supporting the hypothesis of geographical and developmental host shifts.<br><p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: In press. Paper 4: Manuscript.</p>
19
Thompson, Jesse Warren. "Effects of understory vegetation manipulation on hardwood regeneration recruitment and growth in southern Appalachian forests." Thesis, This resource online, 1996. http://scholar.lib.vt.edu/theses/available/etd-08292008-063440/.
Full text
20
Farrell, Claire. "Leaf-litter and microsite on seedling recruitment in an alley-planted E. sargentii and Atriplex spp. saline agricultural system." University of Western Australia. School of Plant Biology, 2008. http://theses.library.uwa.edu.au/adt-WU2008.0110.
Full textAbstract:
[Truncated abstract] In order to assess the sustainability of mixed plantings on saline land, this thesis examined the importance of leaf-litter trapping and microsites on recruitment in a salt affected alley-belted (tree/shrub) agricultural system in Western Australia. Located in the low rainfall region (MAR <330 mm) of the wheatbelt, the 60 ha site consists of concentric rows of Eucalyptus sargentii trees with mounded (6 - 11 cm high) 10 -15 m inter-rows of Atriplex spp. Sustainability of this system and fulfilment of productive and ameliorative functions is dependant on successful recruitment (perennials). Although the present study site was conducted on farmland in a Mediterranean-type climate, low annual rainfall and spatial arrangement of perennial shrubs and trees, allow useful comparisons to be made with naturally occurring banded semi-arid systems and vice-versa. Of key interest were leaf-litter redistribution and trapping by tree and shrub rows and whether litter-cover/microsites facilitated/interfered with seedling recruitment (establishment, growth and survival). Litter from the tree row, redistributed by prevailing winds and rain, accumulated adjacent to saltbush seeding mounds, creating a mosaic of bare and littered areas across the site (total litter 10 t/ha over 22 months). Accumulated litter was hypothesized to differentially influence seasonal soil abiotic parameters (depending on litter-cover density) including; salinity, water availability, infiltration rates, water repellency and temperature. These abiotic conditions were also hypothesized to vary between tree and shrub microsites. Biotically, recruitment at this site was also hypothesized to be determined by interactions (positive and negative) between perennial components and understorey annuals/perennial seedlings. Accumulation of litter and resultant heterogeneity was influenced by shrub morphology, microtopography, wind direction and distance from litter source, with increased litter on the leeward sides of hemispherical Atriplex undulata shrubs and shrubs closest to tree rows. ... The importance of tree/shrub microsites varied seasonally, with no influence in winter due to moderate temperatures and increased water availability. In warmer months saltbush mid-row microsites were most favourable for seedling recruitment due to moderate litter-cover; reducing salinity, temperatures and increasing infiltration; and reduced root-competition/shading by the tree row. Tree microsites also directly inhibited seedling recruitment through increased salinities and water repellency. However, trees also indirectly facilitated recruitment in adjacent areas through provision of leaf-litter. As litter-trapping and recruitment patterns at this site mirror those found in semi-arid natural and artificial systems, the results of this study provide useful insights into creating appropriate mimics of low rainfall natural banded woodland and chenopod shrublands. Saltbush seeding mounds, shrub morphology and litter were key components for litter trapping and recruitment heterogeneity at this site. In this tree/shrub alley planting, where litter quantities directly influence vegetation cover densities, future saline plantings need to consider appropriate tree/shrub row spacings and orientation for efficient resource (seeds, litter and water) capture.
21
Gxaba, L. T. "Variation in the seedling recruitment of Leucadendron laureolum and Diastella divaricata species after fire: a manifestation of species coexistence." Bachelor's thesis, University of Cape Town, 1988. http://hdl.handle.net/11427/26678.
Full text
22
Eck, Jenalle L. "Variation in Tropical Tree Seedling Survival, Growth, and Colonization by Arbuscular Mycorrhizal Fungi near Conspecific Adults: Field and Shadehouse Experiments in Panama." The Ohio State University, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=osu1503242529467534.
Full text
23
Pegman, Andrew Paul McKenzie. "Reconstruction of seed dispersal via modeling, seedling recruitment, and dispersal efficiency of Hemiphaga novaeseelandiae in Vitex lucens and Prumnopytis ferruginea in New Zealand." Thesis, University of Auckland, 2012. http://hdl.handle.net/2292/12502.
Full textAbstract:
My research investigates seed dispersal, post-dispersal stages, and dispersal vector behaviour in native
New Zealand forest canopy tree species that have large fruit by asking: (i) What are the local seed
‘shadows’ (distributions) and seedling patterns in Prumnopytis ferruginea (miro, Podocarpaceae,
dioecious) and Vitex lucens (puriri, Verbenaceae, hermaphroditic), for which Hemiphaga
novaeseelandiae, the New Zealand Pigeon (kereru, Columbidae), is the keystone agent of dispersal? (ii)
What are the effects of kereru densities on the quantity of dispersed miro and puriri seeds, and do kereru
preferentially disperse large and/or viable seeds? (iii) Are other native large-fruited tree species, which
depend on kereru, being actively dispersed or regenerating locally? (iv) Do recruitment patterns in miro
and puriri demonstrate seedling ‘escape’, and if so, are there associated advantages? (v) How are the
parameters of long distance seed dispersal kernels (probability density functions) in simulated miro and
puriri forests affected by changes in kereru densities and spatial patterns of trees?
Local seed distributions in miro and puriri were anisotropic and were described best by gamma and
Weibull (i.e. leptokurtic) probability density functions. Seed shadows across both seasons had less steep
slopes in Hunua miro compared with Waitakere miro, but increased production of actively dispersed
depulped seeds did not increase dispersability. In both tree species, passive dispersal of seeds with
mesocarp occurred mostly to the north and occasionally to the south, but active dispersal was less defined.
Canopy openness, canopy size, and fruit production did not influence local mean dispersal distances in
both tree species. Seedling distributions were inversely spatially concordant with seed patterns
(demonstrating escape) only in miro in the first season. Seedlings were confined to north to north-easterly
sectors for both tree species in both seasons, which mirrored the direction of passive seed rain. Seedling
abundance for all miro trees decreased by c. 56% over 21 months, but there was lower seedling loss
overall for puriri at c. 25%. Seedling survival and growth rates in either tree species were not significantly
different whether under or away from the canopy.
Kereru counts and densities were not significantly different between regions. There was a marginally
significant correlation between kereru densities and the percentage of actively dispersed depulped seeds in
seed shadows across both tree species in season one only. For puriri and miro trees overall, actively
dispersed depulped seeds were significantly longer than seeds from passively dispersed intact fruit,
demonstrating vector preference for larger fruit. Removal of miro fruit and seeds by mammals was higher
overall at Waitakere compared with Hunua; Waitakere puriri had higher predation overall than
Wenderholm puriri, and higher predation of actively dispersed depulped seeds vs. intact fruit. Actively
dispersed depulped miro seeds had significantly lower endosperm integrity rates than seeds from passively
dispersed intact miro fruit.
iv
In the study regions, miro, puriri, Corynocarpus laevigatus (karaka), Beilschmiedia tarairi (taraire),
and Beilschmiedia tawa (tawa) trees were regenerating locally since they all had seedlings of their own
species growing under their own canopies. There was also satisfactory active dispersal since the observed
deviations from expected values of the presence of seedlings of other large-fruited tree species were
generally significant. There were preferential patterns of seed dispersal: taraire seedlings were found most
often under puriri trees and tawa seedlings were found most often under female miro trees. However, there
was an absence of tawa seedlings under karaka trees, karaka seedlings below female miro trees, and only a
very few miro seedlings under taraire trees. Miro seedlings were consistently absent under puriri and
karaka trees, and no taraire seeds were dispersed at female miro trees in Waitakere.
At Pelorus Bridge, Marlborough, miro seeds were preferentially dispersed under a miro tree and to a
lesser degree under a hinau tree, across five seasons. There was virtually no active dispersal of tawa or
hinau seeds under their own canopies or under co-fruiting tree species during this time. A rimu tree
received only a few miro or tawa seeds, and rimu seeds occurred only in small numbers under a female
miro and tawa tree. Kahikatea and matai were the main actively dispersed species under trees. Damage of
bird-dispersed depulped seeds by mammals was high for tawa and low in miro.
Experiments using an original spatially-explicit in silico simulation model showed that scale (mean
dispersal distance), shape (kurtosis-1), and percentage of seeds dispersed beyond the nearest fruiting tree
neighbour all decreased with increasing tree aggregation in simulated puriri and miro forests. There were
no significant changes in the parameters when kereru density changed, except in some puriri forests at
high kereru densities. Total mass of dispersed seeds increased with increasing kereru density, but the % of
seeds dispersed beyond the nearest fruiting tree neighbour did not vary appreciably.
My research suggests that low kereru densities may reduce the quantity of dispersed seeds and the
rates of dispersal of larger seeds, especially if alternative dispersers are not available. Kereru are
particularly important for dispersal in miro, since dioecious trees may be more susceptible to dispersal
failure than co-sexual species.<br>Whole document restricted until March 2014, but available by request, use the feedback form to request access.
24
Stanton, Nicole Lynn. "How does your prairie (re)grow?: Interactions of seed additions with resource availability, heterogeneity, and disturbance on recruitment and diversity in a restored tallgrass prairie." Thesis, Kansas State University, 2014. http://hdl.handle.net/2097/18205.
Full textAbstract:
Master of Science<br>Division of Biology<br>John M. Blair<br>Temperate grasslands are among the most threatened biomes in the world, with the largest historical losses due to conversion to agricultural land. While much of this biome has already been converted, there is concern the last remaining remnants in North America will be converted in response to increasing demand for crops used for ethanol production. Thus, restoring grasslands post-anthropogenic disturbance is increasingly important for conserving grassland biodiversity. Two major challenges for prairie restorations are establishing the many subdominant and rarer species found in native prairie, and offsetting the typical decline in richness and diversity over time as restorations age. Repeated seed addition of targeted species is commonly used to override low and declining plant richness and diversity. While this is generally effective early in restoration (i.e., as communities are establishing), its effectiveness in later stages (i.e., when established communities are often losing diversity) remains unknown. I investigated plant community responses to combinations of resource manipulations and disturbances coupled with a seed addition in a 15-yr old restored grassland to test the hypothesis that spatial resource heterogeneity increases the rate of colonization into established prairie restoration communities. Seeds were added to a long-term restoration experiment involving soil depth manipulations (deep, shallow) crossed with nutrient manipulations (reduced N, ambient N, enriched N). Seedling emergence was generally low and only 8 of the 14 forb species added were detected in the first growing season. I found no effect of increased resource heterogeneity on the abundance or richness of seedlings. There was a significant nutrient effect (p<0.1, α=0.1) on seedling abundance, with higher emergence in the enriched N than the ambient N treatment. I also found unexpected nutrient effects on richness, diversity and Mean C (Mean C = Σ CoCi*Ai, where CoC=Coefficient of Conservatism and A=relative abundance of the ith species). All values, except Mean C, were higher in the enriched N treatment than in either the reduced or ambient N treatments. Mean C was lowest in the enriched N treatment, and highest in the whole-plot control, suggesting that the majority of species contributing to higher richness and diversity in the enriched N treatment were “weedier” species. In a separate experiment, I found no effect of small-scale disturbances (aboveground biomass removal or soil disturbance) on seedling abundance or seedling richness. I did find a marginal effect of disturbance type on seedling richness (p=0.11, α=0.1), with higher seedling richness in the soil disturbance than the aboveground biomass removal treatment. I did not find any disturbance effects on community response variables. These results indicate that recruitment from seed additions into well-established restored communities is relatively low in the first year following a seed addition, regardless of resource availability and heterogeneity. Follow-up studies to determine recruitment rates in subsequent years are needed to elucidate whether recruitment responses are driven more by individual species differences or by environmental mechanisms.
25
Schlindwein, Gilson. "Implicações ecológicas da dormência de sementes em Butia odorata (ARECACEAE)." reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2012. http://hdl.handle.net/10183/61435.
Full textAbstract:
Butia odorata (butiazeiro) é uma palmeira que ocorre em regiões subtropicais da América do Sul, onde constitui formações savânicas em áreas associadas com o manejo pecuário. Após a dispersão, suas sementes apresentam dormência, que pode ser superada por tratamentos de calor úmido. Esta tese visou avaliar como esta dormência responde a variáveis térmicas e de umidade do ambiente e de que forma ela influencia o sucesso de recrutamento de suas plântulas. Para isto foram feitos três estudos: no primeiro, os efeitos de diferentes tratamentos de temperatura, secagem e armazenamento dos diásporos sobre o sucesso germinativo da espécie foram avaliados em laboratório; no segundo, foram investigados os efeitos sazonais e de micro-hábitat (área aberta e mancha florestal) sobre a emergência de plântulas a partir de diásporos semeados no campo, relacionando as respostas às variáveis ambientais, à dormência e à viabilidade das sementes; no terceiro, foram igualmente avaliados os efeitos sazonal e de micro-hábitat, porém sobre o sobre o recrutamento de plântulas, através da semeadura em duas épocas distintas do ano (antes e após o verão), de diásporos previamente tratados para superação da dormência. Os resultados destes estudos mostraram que períodos de préaquecimento úmido (40ºC) após secagem dos diásporos atuam no alívio da dormência das sementes de B. odorata. Estes fatores também foram relacionados com a liberação da dormência das sementes em condições de campo, agindo de forma cíclica sobre este processo ao longo do ano. Esta estratégia concentrou a emergência de plântulas após o verão, quando as condições térmicas e hídricas foram mais favoráveis. Esta resposta foi potencializada pela presença de manchas florestais, que prolongaram a viabilidade das sementes e aumentaram o recrutamento de plântulas.<br>Butia odorata (pindo palm) is a palm tree that occurs in the subtropical regions of South America, where it composes a savanna-like vegetation in areas associated with livestock. After dispersal, seeds exhibit dormancy, which can be overcome by moist heat treatments. This thesis aimed to evaluate how such dormancy responds to thermal and moisture variables of the environment and how it influences the success of seedlings recruitment. To accomplish this, three studies were conducted: in the first, the effects of different temperature, drying and storage treatments imposed to the diaspores on the germination success of the species were evaluated in the laboratory; in the second, we investigated the effects the seasonal and microhabitat (open area vs. forest patch) on seedling emergence from diaspores sown in the field, and related the responses to environmental variables, dormancy and seed viability; in the third, the seasonal and microhabitat effects were also evaluated, but now on seedling recruitment, by doing the sowing at two different times of the year (before and after the summer) of seeds which had been previously treated for overcoming dormancy. The results of these studies showed that periods of wet preheating (40 °C) after seed drying act on relieving seed dormancy of B. odorata. These factors were also related to the release of seed dormancy under field conditions, acting in a cyclical way along the year. This strategy concentrated seedling emergence after the summer, when temperature and water conditions were more favorable. This response was enhanced by the presence of forest patches, which extended seed viability and increased seedling recruitment.
26
Young, Laura May. "Seed dispersal mutualisms and plant regeneration in New Zealand alpine ecosystems." Thesis, University of Canterbury. School of Biological Sciences, 2012. http://hdl.handle.net/10092/6992.
Full textAbstract:
The New Zealand alpine zone has many fleshy-fruited plant species, but now has a relatively depauperate animal fauna. The key question is, therefore, are native alpine plants still being dispersed, if so where to and by what? I first measured fruit removal rates among nine common species using animal-exclusion cages to compare natural fruit removal by all animals, and by lizards only. Over two years, mean percent of fruit removed by early winter ranged from 25–60% among species. Speed of fruit removal also varied depending on species. Secondly, I quantified which animals disperse (or predate) seeds of those fruits, into which habitats they deposit the seeds, and the relative importance of each animal species for dispersal, in two ways. A 2-year study using fixed-area transects to monitor faecal deposition showed that introduced mammals (especially possums, rabbits, hares, sheep, pigs and hedgehogs) were abundant and widespread through alpine habitat. Of the 25,537 faeces collected, a sub-sample of 2,338 was dissected. Most mammals dispersed most (> 90%) seeds intact. However, possums (numerically the important disperser) moved most seeds into mountain beech (Nothofagus solandri) forest, while rabbits, hares, and sheep dispersed seeds mainly into open grassland dominated by thick swards of exotic grasses (e.g. Agrostis capillaris and Anthoxanthum odoratum); all are less suitable microsites. Kea (Nestor notabilis), the largest and most mobile of only three remaining native alpine bird species, are potentially useful as a long-distance seed disperser, even though parrots are typically seed predators. I found that kea are numerically more important than all other birds combined, damage very few seeds, and are probably responsible for most dispersal of seeds between mountain ranges. Finally, I investigated the effects of seed deposition microsite (shady/high-light), pulp-removal (whole/cleaned), competition (soil dug/not-dug) and predation (caged/ not) on germination, growth and survival of eight subalpine plant species. There were strong positive effects of shady microsites for seed germination and seedling survival to 3.5 years for six of the eight species. Effects of other treatments were less important and varied among species and stages. Hence, both native birds and introduced mammals are dispersing alpine seeds, but the mammals often deposit seeds in habitats unsuitable for establishment. Any evaluation of the dispersal effectiveness of frugivores must consider their contribution towards the long-term success for plant recruitment through dispersal quantity and quality.
27
Korell, Lotte [Verfasser], Isabell [Akademischer Betreuer] Hensen, Helge [Akademischer Betreuer] Bruelheide, and Mark van [Akademischer Betreuer] Kleunen. "Plant species origin, herbivory and disturbance : effects on seedling recruitment and consequences for grassland diversity and productivity ; [kumulative Dissertation] / Lotte Korell. Betreuer: Isabell Hensen ; Helge Bruelheide ; Mark van Kleunen." Halle, Saale : Universitäts- und Landesbibliothek Sachsen-Anhalt, 2015. http://d-nb.info/1076038506/34.
Full text
28
Hoven, Brian Michael. "The Effect of Emerald Ash Borer (Agrilus Planipennis)-Caused Ash Mortality and White-Tailed Deer Abundance on Understory Invasive Shrubs and Forest Regeneration." Miami University / OhioLINK, 2021. http://rave.ohiolink.edu/etdc/view?acc_num=miami1627656584529987.
Full text
29
Albrecht, Matthew A. "Reproductive Biology of Medicinal Woodland Herbs Indigenous to the Appalachians." Ohio : Ohio University, 2006. http://www.ohiolink.edu/etd/view.cgi?ohiou1163427974.
Full text
30
Giffard, Brice. "Influence des interactions biotiques complexes sur la régénération des essences forestières feuillues." Thesis, Bordeaux 1, 2011. http://www.theses.fr/2011BOR14319/document.
Full textAbstract:
Les herbivores consomment les tissus végétaux et affectent la survie et la croissance des végétaux. Les ennemis naturels des herbivores peuvent réguler leurs populations et indirectement diminuer les dommages sur la végétation. Les relations entre plantes, herbivores et prédateurs sont liées aux caractéristiques intrinsèques des espèces végétales mais aussi influencées par la communauté végétale environnante. L'hypothèse de résistance par association stipule qu'une communauté végétale diversifiée entraîne une diminution des dégâts sur une plante cible par dilution, répulsion des herbivores et/ou favorisation des ennemis naturels. Inversement, les herbivores peuvent se concentrer sur la plante-cible dans une communauté végétale diversifiée (susceptibilité par association). L'objectif de cette thèse est d'évaluer 1) l'influence de la composition de la communauté végétale sur les herbivores et leurs dommages sur une plante-cible, 2) l'impact de la régulation des herbivores par les prédateurs et 3) les interactions entre herbivores, communauté végétale et prédateurs, et les conséquences pour les intensités d'herbivorie sur la plante-cible. Nous nous sommes focalisés sur les dommages causés par les insectes herbivores sur des plantules d'essences forestières feuillues (Betula pendula, Quercus robur et Q. ilex). La variété importante de communautés végétales, au niveau inter (essences dominantes) et intraparcellaire (présence, structure et composition), nous a permis de tester les effets du voisinage végétal sur les insectes herbivores et leurs dommages sur les plantules cibles. Les oiseaux insectivores sont les principaux prédateurs d'insectes et nous avons cherché à estimer les effets de leur exclusion sur les insectes et les conséquences pour les plantules, et ceci le long des gradients de composition du voisinage végétal. Enfin, le degré de spécialisation (spécialiste/généraliste) et le mode de vie (exo/endophyte) ont été caractérisés car ils conditionnent les réponses des insectes herbivores à la végétation voisine ainsi que la prédation avienne. Le voisinage végétal des plantules-cibles modifie la charge en herbivores et les dommages engendrés. Ces réponses sont liées à la spécialisation de l'insecte herbivore : la colonisation des plantules par les espèces spécialistes (mineuses de feuilles) est négativement affectée par la structure de la végétation locale (présence, recouvrement arbustif). Les dommages d'insectes généralistes augmentent avec la richesse spécifique des peuplements et dans les parcelles dominées par des espèces conspécifiques. Les abondances des insectes externes et leurs dommages sont régulés par les oiseaux insectivores mais cet effet indirect dépend de l'espèce de plantule-cible et de la composition de la communauté végétale. Les effets de cascade trophique sont les plus intenses dans les parcelles de pin maritime où les plantules constituent une ressource nouvelle pour les niveaux trophiques supérieurs. Plus localement, le voisinage végétal modifie la sensibilité des arthropodes à la prédation: les oiseaux insectivores bénéficient aux plantules lorsque les proies sont plus accessibles (végétation environnante supprimée).Pour conclure, une des principales richesses de ces résultats vient de la mise en évidence d'interactions très fortes existant entre les effets des oiseaux insectivores et la végétation environnante. Les effets indirects des prédateurs et directs de la végétation environnante sont très liés au degré de spécialisation des insectes phytophages et à leur mode de vie<br>Herbivory is thought to depend on intrinsic plant resistance traits and negatively affect survival and growth of plants. Predators can depress herbivore populations and thereby indirectly limit the consumption of primary producers. The surrounding vegetation is also expected to modify the interactions between a focal plant, its herbivores and their natural enemies. The surrounding vegetation may disrupt the colonisation and the consumption of a focal plant by insect herbivores, providing associational resistance. Increasing diversity of neighbouring vegetation can decrease resource availability or enhance herbivores control by predators. By contrast, associational susceptibility may occur with higher levels of herbivory in a focal plant in more diverse plant communities. We tested 1) the effect of the neighbouring vegetation on the levels of herbivory on seedlings, 2) the indirect impact of predators on herbivores and subsequent herbivory, and 3) the interactions between surrounding vegetation, focal plants, herbivores and predators. We examined the damage caused by insect herbivores on three native broadleaved species. We then compared the importance of taxonomic similarity between seedlings and canopy tree species and the structure and composition of surrounding vegetation at both large- and small-scales. Birds are vertebrate predators likely to limit damage to plants and facilitate plant growth by consuming herbivorous insects. We estimated their effects by excluding them from focal plants, and compared their interactive effects with vegetation diversity or removal. The effects of surrounding vegetation and avian predation were also disentangled on concealed- vs. external-feeding guilds (predation sensitivity) and specialist- vs. generalist-insects.Surrounding vegetation of focal seedlings influences the abundance of insect herbivores and damage. Specialist insects (leaf miners) are affected by the understorey vegetation close to oak seedlings, decreasing with its presence or structural diversity. The damage caused by generalist insects depend on the large-scale composition of plant communities, and increase with tree species richness and cover or on conspecific forest habitats. Exclusion of insectivorous birds affects insect herbivory in a species-specific manner, and also greatly varies with forest habitats and presence of vegetation around focal plants. The indirect effect of bird predation on leaf damage is observed on seedlings beneath noncongeneric canopy trees. The removal of local surrounding vegetation affects the top-down effect of insectivorous birds on insect herbivores, according to their sensitivity to predation and the accessibility of preys. To conclude, our studies provide experimental evidences of interactive effects between bird predation and neighbouring vegetation on insect herbivores and levels of herbivory. These indirect effects are strongly related to the specialisation of herbivores and to their sensitivity to bird predation
31
Hartman, Kurt M. "The Impacts, Invasibility, and Restoration Ecology of an Invasive Shrub, Amur Honeysuckle (Lonicera maackii)." Ohio : Ohio University, 2005. http://www.ohiolink.edu/etd/view.cgi?ohiou1133734744.
Full text
32
Magoba, Rozwivhona Faith. "Influences of river flows on recruitment success of Fynbos riparian vegetation along selected high gradient streams in the Western Cape, South Africa." University of the Western Cape, 2014. http://hdl.handle.net/11394/4362.
Full textAbstract:
>Magister Scientiae - MSc<br>Riparian vegetation occurs in two distinct zones, the wet bank and the dry bank. Knowledge on how the flow regime influences the zonal structure of riparian vegetation is required to mitigate the adverse effects of water resource utilization on riparian vegetation. The first objective of this study was to determine whether flow exerts a physical influence on zonal structure pre- or post-recruitment. An examination of the survival of seedlings and saplings was conducted along Western Cape rivers to investigate seedling persistence and survival on lateral zones. A comparison of the ratios of seedlings, saplings and adults in different riparian zones for the years, 2004, 2011 and 2013, was carried out. The results suggest that in general seeds are deposited randomly on the banks, where they germinate and become seedlings. Seedlings that become established at locations unsuitable for their persistence into adulthood are removed either by high flows or perish during dry conditions. Thus, lateral zonation eventually develops due to species differences in tolerance to conditions at different positions on the banks. The second objective was to explore the effects of the reduction in dry season low flows on the recruitment success of riparian species at sites upstream and downstream of abstraction points. At most sites plants were arranged into different lateral zones and the numbers of species between upstream and downstream sites were not significantly different. There were significant differences in the abundances between up- and downstream sites, with the loss of herbaceous plants and sedges at downstream sites, both of which favour moist conditions. Also, in the absence of dry season flows, the seedlings of dry bank tree species recruited closer to the channel than those at the sites with summer flows. The shifting of the dry bank into the channel narrows the channel, which may affect the hydraulic pressures exerted during floods. The spatial arrangement in the riparian zone has as much to do with flow conditions post recruitment as it does with conditions during recruitment. This shows that the structure of riparian plants is determined not only by whether or not the minimum flows are met, this points to the need to reinstate the naturally variable flow and adopting a holistic approach for the understanding and management of aquatic systems.
33
Berry, Christopher J. J. "Post-dispersal seed predation in a conifer-broadleaf forest remnant : the importance of exotic mammals." Lincoln University, 2006. http://hdl.handle.net/10182/666.
Full textAbstract:
Despite extensive international acceptance of the critical role of mammalian post-dispersal seed predation in many plant communities, in New Zealand we have limited knowledge of these predators’ influence on plant recruitment in our forests. The principle objective of my thesis was to determine the importance of exotic mammals as post-dispersal seed predators in a New Zealand conifer-broadleaf forest remnant. To address this goal, I used a series of field-based experiments where the actions of different post-dispersal seed predators were separated by wire-mesh exclosures. My study was conducted at Mount Peel Forest Park Scenic Reserve, South Canterbury, New Zealand. Being a human modified conifer forest currently dominated by broadleaf species, it is typical of forest remnants in New Zealand. This presented an opportunity to study a wide range of both potential post-dispersal seed predators and broadleaf tree species. My findings indicate that exotic mammals are not only post-dispersal seed predators at Peel Forest, but are responsible for the majority of post-dispersal predation events observed. Ship rats (Rattus rattus) were the dominant post-dispersal seed predators, while brushtail possums (Trichosurus vulpecula), house mice (Mus musculus) and native invertebrates were also important post-dispersal seed predators for several tree species. Through use of time-lapse video and cafeteria experiments I found that exotic mammalian seed predators, when compared to native invertebrate seed predators, preyed upon larger-seeded plant species and were responsible for considerable seed losses of several tree species. However, exotic mammalian seed predators do share several foraging characteristics with native invertebrate seed predators, as predators foraged in similar habitats and responded in a similar way to changes in seed density. In investigating if post-dispersal seed predation by mammals had a flow-on effect to plant recruitment, I observed natural seedling densities at Peel Forest were significantly higher in the absence of mammalian seed predators, but I found no evidence that the presence of mammals significantly altered the overall species richness. At the community level, I did not find an interaction between habitat and exotic mammals, however I present evidence that for individual plant species a significant mammal : habitat interaction occurred. Consequently, even though my cafeteria experiment implied there was no significant difference in the overall amount of seed preyed upon within different habitats, the less favourable microsite conditions for germination under an intact continuous canopy allows mammals to exacerbate habitat-related patterns of seed mortality and have a noticeable effect on seedling establishment. In an effort to validate the use of manipulative experiments to predict the long-term effect of post-dispersal seed predation on plant dynamics, I attempted to link results of my cafeteria experiment with observed seedling abundance at Peel Forest. Seven tree species were used in this comparison and a strong correlation was observed. This result shows that the level of post-dispersal seed predation determined in the cafeteria experiment provided a good predictor of the effect of mammalian post-dispersal seed predation on seedling establishment. To fully gauge the impact of mammalian post-dispersal seed predators on seedling establishment, the relationship between these seed predators and the type of recruitment limitation experienced by a plant species was also investigated. By using a combination of seed addition, plot manipulations and seed predator exclusion I was able to investigate this relationship. I found evidence that seed limitation at Peel Forest is positively correlated with seed size, and that while mammalian post-dispersal seed predators can further reduce plant recruitment of plant species experiencing seed limitation, the influence of mammals in determining plant recruitment was limited for plant species experiencing microsite limitation. My study has proven that exotic mammals are now the dominant post-dispersal seed predators at Peel Forest, the amount of seed preyed upon varies among plant species, and post-dispersal seed predation by mammalian species can lead to differences in seedling richness and abundance. I proved that the influence of exotic mammals on seedling establishment is also linked to habitat structure and recruitment limitations. When combined these observations suggest that exotic mammalian post-dispersal seed predators may play an important role in determining landscape abundance and distribution of plants at Peel Forest.
34
Vidaller, Christel. "Quels facteurs limitent l’installation de Brachypodium retusum : une espèces clé pour la restauration écologique des steppes méditerranéennes ?" Thesis, Avignon, 2018. http://www.theses.fr/2018AVIG0349/document.
Full textAbstract:
Le brachypode rameux (Brachypodium retusum) est une espèce herbacée pérenne qui domine les pelouses sèches de Méditerranée occidentale. Dans notre zone d’étude du Sud de la France, la recolonisation spontanée est très faible après perturbation du sol. Cette observation ne correspond pas aux résultats d'études menées dans d'autres régions montrant une capacité de colonisation élevée. L'objectif principal de cette thèse était donc de tester les différentes hypothèses pouvant expliquer les différents patrons de colonisation.Dans un premier chapitre, nous avons testé si ces différents patrons de colonisation résultent d'une différenciation génétique entre les populations. Des marqueurs AFLP ont été utilisés pour analyser la structure génétique de 17 populations de Méditerranée occidentale dont la différenciation neutre entre populations. Dans un sous-échantillon de 13 populations françaises, la différenciation de traits phénotypiques sous sélection a été testée dans un jardin commun et comparée à la différenciation neutre. Dans le deuxième chapitre, nous présentons une étude sur la différenciation adaptative des traits phénotypiques et avons testé une potentielle réponse différentielle à la manipulation de facteurs environnementaux clés. Les deux derniers chapitres de la thèse ont analysé les facteurs environnementaux qui limitent la recolonisation in situ, indépendamment du génotype ou de la population. Dans le troisième chapitre, nous avons testé l’effet du pâturage et du feu sur le recouvrement végétatif ainsi que sur la reproduction sexuée de B. retusum installé. Enfin, dans le quatrième chapitre, nous avons mesuré l’effet de l’arrosage initial et du pâturage sur l’installation de plantules transplantées initialement germées en serre et de plantules issues de semis in situ. Nos résultats ont montré que les populations de B. retusum sont génétiquement différenciées pour les marqueurs neutres mais également pour les traits phénotypiques. Cette différenciation est supérieure à la dérive seule et suggère une adaptation aux conditions environnementales, en particulier aux températures estivales et à la fréquence du gel en hiver. Une réponse différentielle à la manipulation expérimentale de facteurs environnementaux (sol, pâturage, humidité du sol) a confirmé le caractère adaptatif de la différenciation génétique. Les expériences in situ ont montré que le feu a un effet positif sur la reproduction de B. retusum et sur la communauté végétale associée, alors que son recouvrement végétatif n’était pas supérieur à la moyenne de la communauté. L'exclusion du pâturage pendant deux saisons n'a eu d'incidence sur aucun des paramètres mesurés chez les populations adultes. L'arrosage initial a affecté l’installation des plantules au cours de la première saison. Au cours de la deuxième saison, l'effet seul de l’arrosage n'était pas significatif, cependant son effet est resté positif sur la survie uniquement dans les parcelles pâturées. Le pâturage, au début du cycle de vie de B. retusum, a eu un effet négatif sur le recrutement et la croissance des plantules. En conclusion, la différenciation adaptative entre les populations peut avoir contribué aux différences régionales en termes de capacité de colonisation et doit être prise en compte lors du ciblage des populations sources pour l'introduction de plantes en restauration écologique. La réponse positive de B. retusum a indiqué que le feu était une force sélective importante dans le passé qui pourrait être utilisée pour favoriser l'espèce et la communauté végétale associée dans des opérations de conservation et de restauration. L'exclusion du pâturage à court terme est tolérée par les populations adultes de B. retusum, mais l'abandon à long terme entraîne une diminution de son recouvrement par rapport aux graminées pérennes à croissance rapide<br>Ramose false brome (Brachypodium retusum) is a perennial herbaceous species that dominates dry grasslands of the Western Mediterranean. In our southern French study area, spontaneous re-colonisation is very low after soil disturbance. This observation does not correspond to the results of studies from other regions showing a high colonisation capacity. The major objective of this PhD thesis was to test different hypotheses potentially explaining the different colonisation patterns.In the first chapter, we tested whether these different colonisation patterns are the result of genetic differentiation among populations. AFLP markers were used to analyse genetic structure including neutral population differentiation in 17 Western Mediterranean populations. In a sub-sample of 13 French populations, differentiation in phenotypic traits under selection was tested in a common garden and compared to neutral differentiation. In the second chapter, we present a study on adaptive differentiation in phenotypic traits testing a potentially differential response to the manipulation of key environmental factors. The last two chapters of the PhD analysed environmental factors that limit re-colonisation in the field independent of genotype or population. In the third chapter, we tested the effect of grazing and fire on vegetative recovery as well as on sexual reproduction of established B. retusum and in the fourth chapter we measured the effect of initial watering and grazing on the establishment of transplanted seedlings pre-grown in a greenhouse and of field-sown seedlings.Our results showed that populations of B. retusum are genetically differentiated in neutral markers but also in phenotypic traits. This differentiation is superior to drift alone and suggests adaptation to environmental conditions, particularly to summer temperature and winter frost frequency. A differential response to experimental manipulation of environmental factors (soil, pasture, soil moisture) confirmed the adaptive character of genetic differentiation. The field experiments showed that fire has a positive effect on B. retusum reproduction and on the associated community whereas vegetative recovery was not higher than community average. Two seasons of grazing exclosure did not affect any of the measured parameters in adult populations. Initial watering affected seedling establishment in the first season. In the second season, the watering main effect was not significant but interestingly the effect remained positive on survival in grazed plots whereas no such effect was observed in exclosures. Grazing in early life cycle stages of B. retusum had a negative effect on seedling recruitment and growth.In conclusion, adaptive differentiation between populations may have contributed to regional differences in colonisation capacity and needs to be taken into account in targeting source populations for plant introduction in ecological restoration. The positive response of B. retusum indicated that fire was an important selective force in the past which may be used to favour the species and its associated plant community in current conservation and restoration management. Short-term grazing exclosure is tolerated by mature B. retusum populations but long-term abandonment results in a decrease of cover relative to high-growing perennial grasses. In early stages of seedling establishment grazing should be avoided to guarantee introduction success - or grazing stress needs to be compensated by watering
35
Hazelwood, Kirsten. "The role of trophic interactions in shaping tropical tree communities." Thesis, University of Stirling, 2018. http://hdl.handle.net/1893/28637.
Full textAbstract:
Tropical rainforests contain exceptionally high biodiversity and account for >30% of the world's carbon fixed by photosynthesis. Consequently, there are compelling reasons to deepen our understanding of the mechanisms that maintain these highly diverse forests and of the potential long-term threats to their preservation. An important process shaping tropical plant communities is negative density dependence (NDD). NDD occurs when plant performance is negatively impacted by increased neighbourhood density. Reduced performance at high neighbourhood density is thought to arise through ecological interactions between plants and their natural enemies. Thus in a healthy ecosystem, trophic interactions play vital roles as mechanisms driving NDD and are important as dispersers facilitating escape from NDD mortality. However, interruption to ecological processes caused by human activities, such as hunting, can perturb NDD interactions and cause cascading effects throughout an ecosystem. In my thesis I investigate the role of dispersal and mortality in NDD dynamics of tropical tree communities, as well as investigating local and global impacts of removing ecological interactions in tropical rainforests. In my thesis, I begin by addressing the presence and variation in strength of NDD among tree species and ontogenetic stages, the mechanisms driving NDD, and the role of trophic interactions in this process. The Janzen-Connell hypothesis predicts that host-specific natural enemies drive NDD by selectively reducing conspecific density, and increase diversity by suppressing competitive exclusion, thus allowing heterospecifics to persist. In chapters 2 and 3 of this thesis, I show that mortality driven by conspecific NDD is prevalent at the early life stages, and this effect is considerably stronger during the year after germination. Furthermore, this process is driven exclusively by host-specific fungal pathogens, which cause mortality selectively among conspecifics and drive diversity. As seedlings age beyond their first year, NDD interactions become less impacted by conspecifics but are impacted by closely related neighbours or by general neighbourhood density, representing changes in the mechanism driving NDD as seedlings age, and a decline in host-specificity of natural enemies. Equally, relative growth rates (RGR) are reduced under high neighbourhood density irrespective of species identity. Results suggest insect herbivores are the strongest driver of reduced RGR but not mortality under increased neighbourhood density. As a consequence of stronger inter than intra-specific NDD effects on RGR, insects had no impact on seedling diversity in the short term. This study supports assertions that regionally rare species experience stronger NDD than common species, accounting for the high variability in species relative abundance in the tropics. In the second part of my thesis, I address the role of large vertebrate dispersers in shaping tropical tree communities and the consequences of defaunation for tree assemblage and carbon storage. Dispersal allows seeds to escape NDD and persist to reproductive maturity and is therefore vital for the maintenance of diversity. Vertebrates disperse the seeds of more than 70% of neo-tropical tree species. However, many large vertebrates are becoming scarce due to widespread hunting. The decline of large vertebrates and their role as dispersers is predicted to alter tree community composition. Additionally, large vertebrates are responsible for the dispersal of large-seeded species, which are linked to species with high wood density. With wood density positively associated with carbon storage, there is a potential cascading influence of defaunation on global carbon storage. We investigate the consequences of declining large vertebrate mortality agents in chapter 3, and the consequences of declining large vertebrate dispersers in chapters 4 and 5. Although community composition is altered in a defaunated forest, species dispersed by extirpated fauna do not appear to drive this. In fact we find that many species thought to be heavily reliant on extirpated fauna manage to persist. Although it is thought that the simultaneous loss of seed predation from large terrestrial vertebrates may create compensatory effects, we found little support for this, with an absence of large terrestrial vertebrates driving only temporary changes to species diversity. Neither a loss of large frugivores or large-seeded species lead to declines in species with high wood density, but we detect a worrying decline in large stemmed species, which has negative implications for carbon storage. Overall, my thesis highlights the importance of NDD and trophic interactions, particularly fungal pathogens, at the early life stages in shaping tropical tree communities and in maintaining diversity. I provide evidence that the removal of trophic interactions among larger natural enemies and dispersers does not impact community assemblage in the directional manner found in previous studies. I provide evidence for the variability in response to trophic interactions among species and ontogenetic stages. I show disproportionate relative importance among natural enemies and dispersers in the maintenance of tropical tree assemblage, with implications for conservation and for assessing the consequences for tree diversity under the influence of degradation.
36
Jovaag, Kari Ann. "Weedy Setaria species-group seed heteroblasty blueprints seedling recruitment /." 2006.
Find full text
37
Lindig-Cisneros, Roberto. "Interactions among species richness, canopy structure, and seedling recruitment." 2001. http://www.library.wisc.edu/databases/connect/dissertations.html.
Full text
38
Lai, I.-Ling, and 賴宜鈴. "Seedling Recruitment and Understory Patterns of Nanjenshan Subtropical Rain Forest." Thesis, 1996. http://ndltd.ncl.edu.tw/handle/40189648766282042699.
Full textAbstract:
碩士<br>國立臺灣大學<br>植物學系<br>84<br>For study of seedlings and understory vegetation varied with
elevation change and environmental condition, I established
89 small plots of 1 × 2 ㎡ in size. All seedlings in plots
were tagged, identified, measured and recensused every month
from Jan 1995 to Mar 1996. Soil water content and light
intensity were recorded for every plot. For additional
understory vegetation censuses, 83 plots of 1 × 2 ㎡ were
located systematically along the transect. A total of 2798
seedlings in 74 species were followed over 15 censuses
during a 15-month period. From the individuals
calculated, Machilus thunbergii, Schefflera octophylla,
Bischofia javanica, Litsea acutivena, were the most
abundance species. The cohort tagged at the first
census, comprising of 966 individuals of mixed ages and
species, lost 31.8% during a 15-month period. Seedling density,
germination and mortality showed seasonal in their
distribution. 43.87% of the species produced sprout
seedlings, with 7.58% individuals of total seedlings. The
sprout seedlings ocurred mostly at higher altitude.Within
some leading tree species, there were quantitative
discordance between seedlings and adult
conspecifics, it was possible due to different
species regerneration processes. Seedling distribution and
composition were related to elevation, slope, soil water
content, light intensity. Climate variation didn''''t
significantly affect seedling density, germination, and
mortality. The understory vegetation investigated included
93 species. The most abundant are Diplazium dilatatum,
Elatostema lineolatum major, and Schizostachyum
diffusum. The composition variation of the understory
vegetation was related to light intensity, but didn''''t vary
with elevation gradient. It seems that canopy disturbance
may be the major determinant of the regional understory
vegetation pattern.
39
Tjelele, Tlou Julius. "Do herbivores facilitate seed germination and seedling recruitment of woody plants?" Thesis, 2014. http://hdl.handle.net/10413/11078.
Full textAbstract:
Woody plant encroachment is a phenomenon whereby trees and shrubs invade grasslands or increase in an already wooded area, resulting in lower yields of herbaceous plants and a reduction in the carrying capacity of rangelands. It is not only the extent of woody plant encroachment, but also the rate at which it occurs, that is a major concern for livestock ranchers interested in herbaceous production. The question of what causes woody plant encroachment still remains unanswered. Animals consume a considerable amount of woody plant seeds during the dry season and could be responsible for spreading undesirable species to new areas or they could enhance the dispersal of species already established. However, under natural conditions, seed dispersal does not guarantee seed germination, which depends on appropriate environmental and seed survival conditions. To better understand the mechanisms involved in woody plant encroachment, we studied the effects of livestock (goats, sheep and cattle), diet quality (high-quality (Medicago sativa hay) vs. low-quality (Digtaria eriantha hay)), seed characteristics (size, shape and hardness), grass competition and fire on germination and seedling recruitment of Dichrostachys cinerea and Acacia nilotica seeds. These objectives were achieved by conducting the following trials: a) recovery and germination of D. cinerea seeds fed to goats, b) diet quality on germination of Dichrostachys cinerea and Acacia nilotica seeds fed to ruminants, c) the effects of gut passage and dung fertilization on seedling establishment of Dichrostachys cinerea and Acacia nilotica seeds and d) the effects of gut passage, dung fertilization, trampling, grass competition and fire on seedling recruitment of the two woody plant species.
During the first trial, seed recovery rate of D. cinerea seeds consumed by goats, either voluntarily after mixing them with feed pellets (mixed), or by force-feeding (gavaged) and
germination percentage were measured. Seed recovery for the gavaged treatment (32.7%) was significantly higher than for the mixed treatments (9.9%; P < 0.001). Seeds that passed through the digestive tract (mixed (35.5%)) and gavaged (31.2%) treatments) had a significantly higher germination percentage than untreated seeds (19.0%). A non-negligible proportion of D. cinerea seeds remained intact after chewing and passage through the digestive system, and their germination percentage increased.
In the second trial, I tested the effects of animal species (goats and sheep, goats and cattle), diet quality (Medicago sativa hay and Digitaria eriantha hay), and seed characteristics (size, shape and hardness) on the effectiveness of animal seed recovery and germination of D. cinerea and A. nilotica seeds. The trial was divided into two experiments. In the first experiment, a significant interaction effect of animal species (goats, sheep), diet (high-quality hay, low-quality hay) and seed species (A. nilotica seeds, D. cinerea seeds) was found on percentage germination (P < 0.0001). There was also a higher percentage seed recovery (P < 0.009) when animals were offered high-quality hay (47.4% + 4.65) compared to low-quality hay (30.2% + 3.24). In goats fed D. eriantha hay, A. nilotica seed germination (9.38% + 3.66) was higher (P < 0.05) than goats fed D. eriantha hay and D. cinerea seeds (6.78% + 1.13). A greater germination percentage was observed in goats fed M. sativa hay with D. cinerea seeds (6.71% + 1.53) than goats fed M. sativa hay with A. nilotica seeds (2.50% + 0.97) (P < 0.05). In the second experiment, animal species had a positive impact, both on seed recovery (P < 0.0325; goats 32.0% + 6.44; cattle 50.3% + 4.27) and germination percentage (P < 0.055; goats 14.1% + 1.48; cattle 9.3% + 0.94; control: D. cinerea 0.64 + 0.06; A. nilotica 0.59 + 0.07). Animal species in experiment one (goats and sheep) and two (goats and cattle) was most important for seed recovery and germination. However, diet (M. sativa hay and D. eriantha hay) and seed species
(D. cinerea, A. nilotica seeds) also had important effects on germination of seeds retrieved from experiment one. The interaction of animal species and size, diet quality, and seed characteristics (size, hardness) all played a major role in recovery of viable and scarified seeds either alone or in combination.
I also studied the effects of seedling emergence, seedling establishment and recruitment of dispersed A. nilotica and D. cinerea seeds by goats and cattle under natural conditions. The interaction effect of animal species, seed recovery day and seed germination treatment/planting method was significant on seedling recruitment. Seeds retrieved from goats in the last four days and planted 2 cm in the soil with dung (25.85% ± 0.46) and seeds planted 2 cm in the soil with no dung (24.77% ± 0.35), recruited significantly better than seeds planted on top of the soil (16.98% ± 0.46). The results also indicated significant differences in percentage seedling recruitment among goats, cattle and control, with goats and cattle having the highest percentage recruitment than controls or untreated seeds. Overall, seeds can potentially germinate and recruit following passage through the gut, thereby facilitating woody plant encroachment.
The results of the last trial showed that seed passage through the digestive tract of goats and cattle compared to untreated seeds (i.e. not ingested) played an important role in improving germination through seed scarification. However, seed recovery by livestock does not guarantee seedling establishment survival, survival and recruitment. Fire and grass mowing treatments affected seedling emergence, seedling survival and recruitment, most probably because of reduced grass competition, thereby reducing competition for resources (light, water and nutrients) between grasses and seedlings. In conclusion, this study indicated that animal species (goats, sheep and cattle), associated diet (low-quality vs. high-quality), seed species (D. cinerea and A. nilotica) and seed characteristics (size, shape, hardness) all played an important role in seed germination. The interactions of animal species, fire, dung, and season either directly or indirectly were pivotal in the emergence, survival and recruitment of D. cinerea and A. nilotica seedlings. Thus, acid scarification in the gut of herbivores in combination with their indirect effects (dung fertilization) and removal of grass competition (either by fire or mowing) can facilitate seedling emergence, seedling survival and recruitment of woody plant species, which may lead to woody plant encroachment.<br>Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2014.
40
Bullied, William John. "Modeling spatiotemporal influences on the hydrothermal environment of the seedling recruitment microsite." 2009. http://hdl.handle.net/1993/3202.
Full textAbstract:
Modeling the seedling recruitment microsite involves characterization of the soil environment of the shallow profile from which weed seedlings recruit. Understanding the environment of the seedling recruitment microsite is the prelude to weed emergence studies. Because of spatial and temporal heterogeneity of the recruitment microsite, sufficient measurements are often not feasible. An experiment was established in 2003 and 2004 across topography within an annually cropped field in south-central Manitoba to determine the effect that hillslope aspect and position, and soil residue and depth would have on microsite environment within the shallow seedling recruitment zone. Microclimatic, topographic, soil surface and soil properties were assessed in the context of the weed recruitment microsite. The soil water retention characteristic was measured by pressure plate to determine water availability to germinating seeds at the various topographic positions. The soil water characteristic was evaluated across topography and soil depth. Evaluation of the soil water characteristic by pedotransfer function indicated that a single soil water characteristic is representative of the recruitment zone. Field and laboratory experimental measurements were used as parameterization for the simultaneous heat and water (SHAW) model to generate continuous water and temperature profiles for the recruitment zone. Soil temperature and temperature fluctuation decreased with depth in the recruitment zone. Despite differences of texture, bulk density, and organic matter across topography and soil depth, the soil water characteristic differed only across topography. Soil water potential fluctuated considerably at the soil surface due to numerous precipitation events and direct evaporation. Implications for germinating seeds is that the seedling recruitment zone is influenced by spatial effects of topography and the vertical location of the seed microsite. Physical process based modeling used in this study to predict temperature and water within the seedling recruitment zone enables better understanding of interactions between above-ground microclimate and the recruitment microsite. Such interactions enable linkage between atmospheric models and recruitment models that can enhance our ability to evaluate crop management decisions.
41
Chen, Yu-Yun. "Reproductive phenology in a lowland dipterocarp forest and its consequences for seedling recruitment." 2007. http://purl.galileo.usg.edu/uga%5Fetd/chen%5Fyu-yun%5F200705%5Fphd.
Full text
42
Peachey, Ronald Edward. "Seedling recruitment of hairy nightshade and other summer annual weeds in irrigated row crops." Thesis, 2004. http://hdl.handle.net/1957/29497.
Full textAbstract:
This study evaluated the effects of tillage system, rotational tillage sequences, and
winter seed burial depth on weed seedling recruitment in irrigated cropping systems.
Notill (NT) planting of vegetable crops reduced emergence of hairy nightshade by 77 to
99% and Powell amaranth emergence from 50 to 87% compared to conventional tillage
(CT) and planting of crops. Cover crops suppressed weed emergence if soils were
undisturbed but not if soils were tilled in the spring. Four years of NT vegetable crops
reduced summer annual weed density by 48 to 79% at two sites. Rotational tillage
sequences that alternated between NT and CT only reduced summer annual weed density
if the shorter season crop of snap beans was paired with CT and sweet corn was paired
with NT. Hairy nightshade density decreased by 83 to 90% if NT was paired with the
longer season crop of sweet corn. Hairy nightshade seedling recruitment at 30.7 C was
more than 15 times greater for seeds buried at 6, 13 and 25 cm than when buried at 1 cm
in simulated NT. Recruitment potential was low in March and April but increased to a
maximum in May and June. Germination rates for seeds buried at 1 cm were lower and
mortality and dormancy greater than for seeds buried from 6 to 25 cm during the winter.
Protecting the seeds buried at 1 cm from rainfall during the winter increased seedling
recruitment from 0 to 2 of 10 buried seeds, but had a negligible effect on seed mortality
and dormancy. Treatment of seeds buried at 25 cm with 1 cm soil temperature reduced
recruitment from 4.8 to 2.3 of 10 buried seeds at 33.3 C, but did not significantly increase
seed mortality or dormancy. Estimates of seed drift using electronic transponders found
that 16% of the seeds at 5 cm moved to within the emergence zone for hairy nightshade.
Seed drift coupled with the faster germination rate and lower mortality of seeds buried at
12 cm or below predicts that hairy nightshade recruitment will be optimized when soil is
tilled in the spring.<br>Graduation date: 2005
43
Dixon, Mark Douglas. "Woody vegetation dynamics on Wisconsin river sandbars : spatial and temporal controls on seedling recruitment /." 2001. http://www.library.wisc.edu/databases/connect/dissertations.html.
Full text
44
Hersh, Michelle Heather. "The Role of Seedling Pathogens in Temperate Forest Dynamics." Diss., 2009. http://hdl.handle.net/10161/1357.
Full textAbstract:
<p>Fungal pathogens likely play an important role in regulating populations of tree seedlings and preserving forest diversity, due to their ubiquitous presence and differential effects on survival. Host-specific mortality from natural enemies is one of the most widely tested hypotheses in community ecology to explain the high biodiversity of forests. The effects of fungal pathogens on seedling survival are usually discussed under the framework of the Janzen-Connell (JC) hypothesis, which posits that seedlings are more likely to survive when dispersed far from the parent tree or at low densities due to pressure from host-specific pathogens (Janzen 1970, Connell 1971). One of the key challenges to assessing the importance of JC effects has been to identify and quantify the effects of the large numbers of potential pathogens required to maintain host diversity. The primary objectives of this research were to (1) characterize the fungi associated with seedling disease and mortality for a number of important southeastern US forest tree species; and (2) determine if these associations are consistent with the Janzen-Connell hypothesis in terms of differential effects on seedling survival.<br></p><p>Culture-based methods and ribosomal DNA (rDNA) sequencing were used to characterize the fungal community in recently dead and live seedlings of thirteen common tree species in a temperate mixed hardwood forest (North Carolina, USA), with the goal of identifying putative seedling pathogens. Cultures were initially classified and grouped into 130 operational taxonomic units (OTUs) using 96% internal transcribed spacer (ITS) sequence similarity; 46% of all OTUs were found only once. Using rarefaction, it was concluded that the richness of the system was not fully sampled and likely included over 200 taxa (based on non-parametric richness estimators). Species richness did not differ between sampling sites or among the five most common hosts sampled. The large ribosomal subunit (LSU) region of rDNA was then sequenced for representative samples of common OTUs and refined identifications using a constrained maximum likelihood phylogenetic analysis. Phylogenetic placement verified strong BLAST classifications, and allowed for placement of unknown taxa to the order level, with many of these unknowns placed in the Leotiomycetes and Xylariales (Sordariomycetes).<br> </p><p>Next, a hierarchical Bayesian model was developed to predict the effects of multiple putative fungal pathogens on individual seedling survival, without forcing the effects of multiple fungi to be additive. The process of disease was partitioned into a chain of events including incidence, infection, detection, and survival, and conditional probabilities were used to quantify each component individually, but in the context of one another. The use of this modeling approach was illustrated by examining the effects of two putative fungal pathogens, <italics>Colletotrichum acutatum</italics> and <italics>Cylindrocarpon</italics> sp. A, an undescribed species of <italics>Cylindrocarpon</italics>, on the survival of five seedling hosts in both a maximum likelihood and Bayesian framework.<br> </p><p>Finally, the model was used to assess the impacts of these fungi on seedling survival, alone and in combination, using data on five potential fungal pathogens and five hosts. Multi-host fungi had differential effects on seedling survival depending on host identity, and multiple infections may impact survival even when single infections do not. Evaluating these interactions among multiple plant and fungal species generates a set of targeted hypotheses of specific plant-fungal combinations that could help us better understand pathogen-driven diversity maintenance at larger scales than previously possible. Building on these results, some recommendations are provided as to how the Janzen-Connell hypothesis can be re-evaluated with respect to host specificity, pathogen distribution, and environmental context.</p><br>Dissertation
45
Williams, Gwendolyn Clare. "Ectomycorrhizal Fungi Facilitate Competitive Interactions Between Tree Taxa: Host Preference, Seedling Recruitment, and Forest Succession." Diss., 2014. http://hdl.handle.net/10161/8652.
Full textAbstract:
<p>The mycorrhizal mutualism is one of the earliest and most influential of all terrestrial symbioses. As the primary method used by most plants to acquire nutrients from the soil, mycorrhizal fungi help to shape the structure and composition of many ecosystems. Ectomycorrhizal (EM) fungi play an especially significant role because most EM fungi prefer a limited number of host taxa, and EM plant species likewise associate with only a fraction of the available EM fungi. This host preference issue, combined with the high diversity of EM fungi in forest ecosystems, complicates interspecies competition both among fungi and among plants, because these plant and fungal communities interact.</p><p>Despite recent attempts at documenting mycorrhizal fungi in the context of ecological succession, many questions remain about the underlying causal relationships among EM fungi, soil conditions, and plant community assembly. The succession of mycorrhizal fungi often mirrors the succession of plants, and ectomycorrhizal (EM) community composition may affect the outcome of competition among trees during succession. In a pine-oak seral system, we tested the ability of <italic>Pinus taeda</italic> and <italic>Quercus alba</italic> seedlings to associate with EM fungi when planted under both conspecific and heterospecific adults. We found that EM communities under pine and oak canopy were distinct regardless of seedling identity, indicating that the fungal associations of adult trees determine which EM species are available in the soil. In addition, pine seedlings planted under oak canopy showed decreased mycorrhization and growth compared to those planted under pine canopy, while oak seedlings showed no negative effects of heterospecific planting. This impaired ability of pine seedlings to associate with the EM community established under oaks may deter pine recruitment and facilitate the late-seral replacement of pines with oaks.</p><p>While EM fungal communities correlate with the dominant species of host tree, soil properties do as well, making it difficult to establish causality among these three variables. Soil was collected from oak- and pine-dominated stands and dried to kill off mature mycelium, leaving only the spore bank as a source of inoculum for pine and oak seedlings. EM root tips were collected for molecular identification of fungal species based on ITS barcoding, and soil samples from field and laboratory conditions were analyzed for fungal diversity using 454 sequencing. We found a reduced influence of canopy type and a more pronounced influence of seedling identity when compared to the EM communities on seedlings planted in the field, suggesting that adult trees do alter the availability of fungi by directly promoting the growth of their preferred EM associates.</p><p>The availability of EM fungi can also affect seedlings at the interface between EM- an AM-dominated forest. We tested the hypothesis that seedlings of <italic>Dicymbe corymbosa</italic> which recruit outside of monodominant stands have limited access to EM symbionts compared with those which recruit inside <italic>D. corymbosa</italic> stands. EM root tips and rhizosphere soil were collected from seedlings along two transects inside monodominant stands and three transects in the transition zone into mixed forest dominated by AM associates. Seedlings inside monodominant stands yielded both a greater quantity of mycorrhized root tips and a higher diversity of EM species than transition zone seedlings. Of the fungal families commonly found on adult roots, the Boletaceae were notably underrepresented on all seedlings. In the transition zones, high-throughput sequencing of soil also detected a decrease in EM diversity with distance from the parent tree.</p><p>Seedlings of <italic>D. corymbosa</italic> may benefit from recruiting within monodominant stands by tapping into common mycorrhizal networks (CMNs) to acquire low-cost nitrogen and, potentially, photosynthates produced by conspecific adults. Leaves of stand adults, stand seedlings, and mixed-forest seedlings were collected for stable isotope analysis to track the transfer of nitrogen and carbon through CMNs. The δ<super>13</super>C and δ<super>15</super>N results contradicted each other, suggesting that more complicated interactions may be playing out among adults, seedlings, and fungi.</p><br>Dissertation
46
Chang, Yu-Chun, and 張育群. "Seedling Patterns and Recruitment of the Warm-temperate Evergreen Broad-leaved Forest in Chungtzekuan area." Thesis, 2005. http://ndltd.ncl.edu.tw/handle/32875914735688270046.
Full textAbstract:
碩士<br>國立臺南大學<br>教師在職進修自然碩士學位班<br>93<br>The Chungtzekuan area,1930m above sea level belonging to a warm-temperate evergreen broad-leaved forest, is mostly filled with Fagaceae and Lauraceae. 78 species of woody plants were recorded in this 2ha permanent plot. This research divided this area into two parts: one part contained 160 tagged transect plots of 2mx2m each size and 640㎡ in total space, the other part contained 9 gap plots of 273㎡ in size. Besides, I also tagged an animal-disturbing plot of 400㎡ outside this area. After 9 times’ investigations of one time every two months during 16 months, 46 species of woody seedlings were recorded. The dorminant species were mostly assembled in Litsea acuminata, Machilus thunbergii, Beilschmiedia erythrophloia, the Lauraceae family, and Ardisia cornudentata ssp. morrisonensis, Hydrangea chinensis, the shrub layer. The results showed that the density and the birth rate of the seedlings were quite low. The average was 0.72 tree/㎡ and 6.8 tree every two months. Yet, the survival rate of the old-seedling was high at 0.88, and the death rate of the recruited-seedling was low at 0.24. Although it appeared negative growth, the seedlings can still keep a stable amount. The summit time of the seedling birth was from February to June, and from April to August is the summit time of their growth. The seedlings showed different growth rate at the different habitats. About the density, survival rate, birth rate, sprouting rate, and diversity, the transect plots were higher. And about the growth rate and evenness, the gap plots were higher. Gap in this area was small as not over 50 ㎡, and its relative light was a little higher than the transect plot. And further more it was covered by the pioneering plants of Miscanthus floridulus and Embelia rudis, so it’s probably the reason that the gap seedlings didn’t grow apparently. 24.4% of the sprouting rate in the plot was close to the sprouting rate of the major species of the tree-layer. Accordingly, the form of sprouting might be the renewing strategy of this place. The CCA analysis showed that the distribution of the seedlings was not concerned with the aspect, herb cover, and water content, but was concerned with the light, slope, and altitude, but the influence was not so rich. The distribution of the seedlings might exist with other restriction factors. Rich mammals here didn’t disturb the seedlings much showed by the animal-disturbing plot.
47
Kalibbala, Faith Nandawula. "The performance of the seed feeding bruchid beetle Sulcobruchus subsuturalis (Pic) (Cleoptera: Bruchidae) in the biological control of Caesalpinia decapetala (Roth) Alston (Fabaceae) an invasive weed in South Africa." Thesis, 2009. http://hdl.handle.net/10539/6785.
Full textAbstract:
The release of the seed eating beetle Sulcobruchus subsuturalis for biological control of
Caesalpinia decapetala in South Africa has been ongoing since 2000. This is the first
post release evaluation of the efficacy of the agent against the weed. The study assessed
the phenology of C. decapetala and S. subsuturalis at two sites and included determining
the establishment of the beetle on the target weed at 25 study sites. In addition, the effects
of S. subsuturalis on seed densities as well as seed germination and seedling recruitment
were examined. Furthermore predation by native ants and attacks by native parasitoids
were also examined at two release sites. Mature filled pods were available on the tree
from September (spring) to March (summer) when the beetle is expected to be
reproductively active. The majority of beetle releases by Working for water took place in
summer. However the proportion of beetle infested seeds, which were only recovered
inside pods in the tree canopy at study sites, was low (0 to 15.5%). Consequently high
seed densities and seedling recruitment were observed in the field. In the laboratory, S.
subsuturalis did not lay eggs on buried seeds, however seed infestation levels were
generally high. Only 8.3% of the seeds containing adults germinated and 6.3% emerged
into seedlings. Of the seeds containing larvae, only 14.6% germinated and 2.1% emerged
into seedlings. Thus far, S. subsuturalis has failed to maintain high populations on the
target weed, possibly due to egg predation by native ants (Crematogaster species,
Pheidole megacephala, Messor natalensis and Tetramorium avium) and attacks by native
parasitoids. Egg predation reached 100% within 10 days. Egg parasitism by unknown
parasitoids ranged between 80 and 93.1% in Limpopo. The parasitic wasp Dinarmus
altifrons was recovered once developing inside a C. decapetala seed infested with S.
subsuturalis. Further investigations regarding attacks by indigenous parasitoids on S.
subsuturalis are required to determine the extent of this problem. Meanwhile releases of
S. subsuturalis against C. decapetala should continue. However release efforts need to be
improved by (a) using inundative rather than inoculative releases (b) Releasing every
year between September and March (summer) and (c) involving land owners, farmers
and nature reserve authorities in release activities. Ultimately an additional agent should
be sought for release against C. decapetala as the weed may not be the preferred host for
S. subsuturalis.
48
Kladivová, Anna. "Význam regenerace ze semen pro změny druhového složení v důsledku pastvy." Master's thesis, 2010. http://www.nusl.cz/ntk/nusl-295845.
Full textAbstract:
Despite its long tradition in our country, livestock grazing almost disappeared from Czech landscape. This form of land use has winded down in the middle of 20th century, when compulsory co-operative farming was introduced. Decrease of pasturage is especially visible on fragmented areas of steep slopes and in dry places. These areas are often highly valuable and protected for its nature richness. When a grazing management is introduced, its effects on plant species communities are not clear. Also the exact mechanisms of vegetation changes caused by grazing are often unknown. In 2005, administration of PLA Český kras reinstated grazing management as a mean of preservation of dry grassland ecosystems. As part of this project I studied, how generative regeneration contributes to vegetation changes. The aim of the present study is to ascertain: a) how is seedling recruitment and survival affected by grazing, b) what are limitations of generative reproduction, and c) what is the contribution of soil seed bank to vegetation changes. In 2005, monitoring of seedling recruitment and survival had started, repetitive sowing experiment was performed and species composition of persistent seed bank was analyzed. Grazing had a positive effect on seedling - both numbers of seedling and their species composition....
49
HOŘEJŠÍ, Edita. "Klíčivost a vzcházivost semen kosatce sibiřského (Iris sibirica L.) v závislosti na typu managementu." Master's thesis, 2018. http://www.nusl.cz/ntk/nusl-375352.
Full textAbstract:
This work continue on a bachelor's work which investigated production characteristics of the plant species Siberian Iris (Iris sibirica). The aims of the presented work are reproductive properties by seeds of Siberian Iris in relation to the seed germination and with various meadow managements. Seeds of Siberian Iris (collected in 2015 and 2016) were investigated in laboratory condition and at meadow near the pond Dolní Stržený (Dlouhá Lhota, of the Tábor District). Seeds were divided into groups according to 4 treatments: without intervention, scarification, thermal stratification and cold stratification. The field experiment runs from September 2016 to August 2017.The aim was to find out the most appropriate type of management (mowing, disturbance) that would promote seed germination and seedling recruitment. Results from the both experiments: a positive effect of germination after the scarification, better recruitment of seeds in square without intervention, seeds probably needs to be stored for a longer period before sowing. These results cannot be generalized, because small number of repetitions were performed. All the obtained data was discussed and recommendations for the plant management were formulated.
50
Kalema, Vettes Neckemiah. "Diversity, use and resiliance of woody species in a multiple land use equatorial African savanna, central Uganda." Thesis, 2011. http://hdl.handle.net/10539/9163.
Full textAbstract:
Savanna woodlands are vitally important in providing ecological services (e.g. erosion protection,
micro-climate) and economic services (e.g. timber, food, fodder non-wood products, and wild-life
habitats) that sustain local livelihoods and national economies. Increasing demands and the need for
sustainable savanna woodland resource management requires that the ecological, economic, social
and cultural values of these resources be explored and brought to the attention of decision makers and
the general public. The identification and better understanding of the structure and dynamics of
woodland community types, patterns of species distribution and quantitative properties of their
diversity is important to the conservation and sustainable management of these woodlands. This study
seeks to contribute to a better understanding of Nakasongola woodland community types, species
diversity patterns and environment correlates, natural regeneration processes (i.e. sprouting and
seedling establishment) and identifying livelihood strategies adopted by households, woody species
utilised, and the contribution of charcoal production to household livelihoods. Data on vegetation and
environmental variables were collected using 75 rectangular 20 x 50 m (0.1 ha) plots. Data on land
use and land cover changes, and relevant associated socio-economic parameters were collected
through the analysis of multi-temporal satellite imagery and field observations, as well as interviews
of local households and key informants. The basic major livelihood activities for the rural households
in this savanna dryland are charcoal production, subsistence crop cultivation and livestock grazing.
However, it, sometimes, includes various combinations of activities, i.e. charcoal production and
subsistence crop cultivation for both food and cash, and livestock keeping for income generation
through selling the livestock products such as milk and, sometimes, the whole animal. At least 24
woody species, including fruit trees (Mangifera indica and Artocarpus heterophyllus), are frequently
harvested, including 16 species that are considered the most utilized for charcoal production. Charcoal
production, being the major source of income to the rural households, contributes on average US$ 259
± 46 (S.E.) per household annually. There were significant differences in charcoal production
(Kruskal-Wallis; H = 31.42, p < 0.0001), producer sale prices per bag of charcoal (H = 35.62, p <
0.0001), and annual incomes from charcoal production (H = 32.44, p < 0.0001) per households across
the 8 sub-counties. Most of the youth (≤ 20 years old) derive their livelihoods from charcoal
production, a small amount of trade, offering labour services, livestock keeping, fishing, bee keeping
and earth brick making. Charcoal production, livestock keeping and hunting are carried out
particularly by men, whereas, crop cultivation, and collection of fire wood, medicinal plants and fruits
are carried out, mainly, by women. However, men are also engaged in cultivation only during the
rainy seasons. There have been significant land cover changes in the area during the period 1984 to
2001, resulting in a 64% decrease in dense woodland cover, and an 80% increase in areas under
cultivation/settlements. These changes are attributed to significant spatial expansion in agriculture increased commercialisation of charcoal production, grazing and human population growth. A total of 44,195 (5,893 plants/ha) woody plants representing 99 species in 67 genera and 31 families
were recorded. The most species rich families were Mimosaceae (13), Rubiaceae (9), Moraceae (7),
Euphorbiaceae (7), Anacardiaceae (6), Combretaceae (5) and Verbenaceae (5). Density of woody
species differed significantly (F2, 72 = 6.3, P < 0.003) among land uses, being higher under charcoal
production (7,131 ± 755 plants/ha) and cultivation (6,612 ± 665) areas and significantly lower under
grazing lands (4,152 ± 525). Community species composition differed significantly (Global RANOSIM =
0.14, p = 0.001) among land use types. All measures of beta-diversity (spatial “turnover” in species
composition) showed consistently higher beta-diversity in the grazing land use (βW = 3.1; βT = 3.1),
followed by cultivation (βW = 2.8; βT = 3.0) and charcoal production (βW = 2.7; βT = 2.8), suggesting a
more heterogeneous spatial distribution of species in the grazing lands. This suggests that variations in
the composition and diversity of woody species are to a great extent influenced by land use type and
anthropogenic disturbances in this region. Basal area of woody species differed significantly (F2, 72 =
12.0, P < 0.0001) among land uses, being highest under cultivation and charcoal production and
significantly lower under grazing. Woody plant density differed (F2,72 = 6.3, P = 0.003) across landuses,
being highest under charcoal production and cultivation and significantly lower under grazing.
The species that contributed most to both basal area and density across all the land uses were
Combretum collinum and Combretum molle. However, different species contributed the next most i.e.
Piliostigma thonningii for grazing; Albizia zygia and Harrisonia abyssinica for cultivation and Vepris
nobilis for charcoal production areas. For both basal area and abundance of all woody species, the
total variance in species-environmental factor relations (for the combined first four canonical axes)
was higher than 50%, suggesting a relatively strong influence of the measured environment variables
on species composition and distributions. The CCA points to a significant influence of soil Ca2+ and
Mg2+ in association with grazing on gradients in the composition and structure of woody species in the
savanna woodland of Nakasongola.
Resprouting was generally common among the woody species. A total of 2,595 stumps, representing
74 species in 31 families were recorded from all plots. Of these, 98.3% resprouted and were identified
to species level. Density of both stumps and total resprout differed significantly (p < 0.05) among the
land uses, being higher in charcoal production areas than in grazing and cultivation land uses. For the
overall pooled data, resprouts per stump differed significantly among land uses (F2, 456 = 7.75, p =
0.0005), being highest in charcoal production (mean ± S.E.; 14 ± 1) and cultivation (13 ± 1) land uses
and lowest under grazing areas (10 ± 1). Generally, the mean number of resprouts per stump increased
with increasing stump basal diameter (BD), being highest for BD size class > 41 cm. In relation to
stump height, the highest mean resprouts/stump was found on stumps with heights ranging from 0.31-
0.40 m. Based on pooled species data, regression analyses showed weakly significant negative
relationships between BD of leading resprouts and number of resprouts/stump (r2 = 0.123, p < 0.0001)
and between height of leading resprouts and number of resprouts/stump (r2 = 0.068, p < 0.0001).
Density of seedlings of woody species differed significantly among land use types (ANOVA; F2, 72 =5.9, p = 0.004), being highest for cultivation (3,162 ± 440 individuals ha-1), followed by charcoal
production (2,416 ± 295 ha-1) and lowest for grazing (1,629 ± 205 ha-1). Composition of seedlings
differed significantly among land use types (Global RANOSIM = 0.119, p = 0.001). The distributions and
densities of some seedlings were explained by gradients in environmental variables, with edaphic
factors (i.e. Ca2+, Mg2+, K+ and organic matter) and charcoal production being the most important.
The first two axes of the Canonical Correspondence Analysis (CCA) explained 41.9% of the variance
in species – environmental relations and were a reflection of edaphic and charcoal production land use
gradients. All of the 16 highly utilized species were well represented in both the juvenile and adult
classes, with gradually declining number of individuals with increasing stem size-class. This indicates
that most of these species have high regeneration potential. Juvenile:adult tree ratios >1 and negative
DSCD slopes indicate good recruitment and probably successful regeneration for these species. The
study revealed land cover changes mainly in the dense and medium dense woodlands, reflected by the
increase in open woodland, grasslands and cultivation/settlements. These trends threaten the
livelihoods of local communities who are entirely dependent on these natural resources. Sustainable
management will require the establishment of suitable integrated community-based institutions and
management practices, with support from all key stakeholders (i.e. National Forest Authority (NFA))
and local communities. Maintenance of savanna woodland resources and other ecosystem services
essential for human well-being will require an effective legal framework to prevent over-exploitation
and give incentives for the protection of the fragile savanna woodland vegetation. An appropriate
savanna woodland management policy will be required to guide changes in land use that
accommodate the requirements of land users, aided by targeted conservation efforts to all woody
plants and particularly for the highly utilized species for charcoal production as well as the
multipurpose species. In addition, there is urgent need to build local capacity for improved harvesting
and utilization of these tree species. This can be achieved through equipping local users with up to date information as well as observing the existing skills.