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Journal articles on the topic 'Mammal control'
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Utz, Ryan M., Alysha Slater, Hannah R. Rosche, and Walter P. Carson. "Do dense layers of invasive plants elevate the foraging intensity of small mammals in temperate deciduous forests? A case study from Pennsylvania, USA." NeoBiota 56 (May 14, 2020): 73–88. http://dx.doi.org/10.3897/neobiota.56.49581.
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Monospecific stands of invasive plants can dramatically restructure habitat for fauna, thereby elevating population densities or promoting foraging of consumer species who benefit in the altered habitat. For example, dense stands of invasive plants may protect small mammals from predators, which in turn could increase foraging pressure on seeds that small mammals feed upon. We used a before-after, control-impact experimental design to test whether small mammal capture rates were higher and giving-up densities (GUDs) lower beneath dense stands of Berberis thunbergii, an invasive shrub with a rapidly expanding range throughout eastern North America. Our experimental design included three plot categories: 1) plots heavily invaded by B. thunbergii, 2) control plots lacking invasive shrub cover, and 3) invaded plots where we eradicated B. thunbergii midway through the study. Although our overall small mammal capture rate was low, small mammal captures were 65% higher in B. thunbergii invaded habitat relative to control plots and eradication lowered capture rates by 77%. GUDs were also 26% higher within B. thunbergii relative to control plots and eradication decreased GUDs by 65%. Our findings suggest that small mammals perceive dense stands of B. thunbergii as relatively safe foraging habitat. Prior surveys within our study locations revealed dramatically depressed tree seedling densities under B. thunbergii, thus invasive plants may promote intensive foraging by small mammals and reduce recruitment for species with foraged seeds or seedlings.
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COURCHAMP, FRANCK, JEAN-LOUIS CHAPUIS, and MICHEL PASCAL. "Mammal invaders on islands: impact, control and control impact." Biological Reviews 78, no. 3 (2003): 347–83. http://dx.doi.org/10.1017/s1464793102006061.
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Balčiauskas, Linas, Laima Balčiauskienė, and Vitalijus Stirkė. "Mow the Grass at the Mouse’s Peril: Diversity of Small Mammals in Commercial Fruit Farms." Animals 9, no. 6 (2019): 334. http://dx.doi.org/10.3390/ani9060334.
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Small mammals are not only pests but also an important part of agricultural ecosystems. The common vole is a reference species for risk assessment of plant protection products in the European Union, but no data about the suitability of the species in the Baltic countries are present so far. Using the snap-trap line method, we evaluated species composition, abundance, and diversity of small mammal communities in commercial orchards and berry plantations in Lithuania, testing the predictions that (i) compared with other habitats, small mammal diversity in fruit farms is low, and (ii) the common vole is the dominant species. The diversity of small mammals was compared with control habitats and the results of investigations in other habitats. Out of ten small mammal species registered, the most dominant were common vole and striped field mouse. Small mammal diversity and abundance increased in autumn and decreased in line with the intensity of agricultural practices but were not dependent on crop type. In the most intensively cultivated fruit farms, small mammals were not found. The diversity of small mammal communities in fruit farms was significantly higher than in crop fields and exceeded the diversities found in most types of forests except those in rapid succession.
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Gearty, William, Craig R. McClain, and Jonathan L. Payne. "Energetic tradeoffs control the size distribution of aquatic mammals." Proceedings of the National Academy of Sciences 115, no. 16 (2018): 4194–99. http://dx.doi.org/10.1073/pnas.1712629115.
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Four extant lineages of mammals have invaded and diversified in the water: Sirenia, Cetacea, Pinnipedia, and Lutrinae. Most of these aquatic clades are larger bodied, on average, than their closest land-dwelling relatives, but the extent to which potential ecological, biomechanical, and physiological controls contributed to this pattern remains untested quantitatively. Here, we use previously published data on the body masses of 3,859 living and 2,999 fossil mammal species to examine the evolutionary trajectories of body size in aquatic mammals through both comparative phylogenetic analysis and examination of the fossil record. Both methods indicate that the evolution of an aquatic lifestyle is driving three of the four extant aquatic mammal clades toward a size attractor at ∼500 kg. The existence of this body size attractor and the relatively rapid selection toward, and limited deviation from, this attractor rule out most hypothesized drivers of size increase. These three independent body size increases and a shared aquatic optimum size are consistent with control by differences in the scaling of energetic intake and cost functions with body size between the terrestrial and aquatic realms. Under this energetic model, thermoregulatory costs constrain minimum size, whereas limitations on feeding efficiency constrain maximum size. The optimum size occurs at an intermediate value where thermoregulatory costs are low but feeding efficiency remains high. Rather than being released from size pressures, water-dwelling mammals are driven and confined to larger body sizes by the strict energetic demands of the aquatic medium.
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Auladell, Carme, Rubén D. Castro-Torres, Oriol Busquets, Miren Ettcheto, Antoni Camins, and Ester Verdaguer. "JNK isoforms control mammal adult hippocampal neurogenesis." Mexican Journal of Medical Research ICSA 8, no. 16 (2020): 5–12. http://dx.doi.org/10.29057/mjmr.v8i16.5548.
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In mammals, the term “adult hippocampal neurogenesis” defines the process through which, throughout adulthood, new granular neurons are produced by neural stem cells (NSC) in the subgranular zone (SGZ) in the dentate gyrus (DG) of the hippocampus or, by a population of immature neurons located in the SGZ. Either way, the existence of neurogenic activity in the hippocampus has been correlated with learning, memory formation and behavioral responses to stress, together with the pathophysiology of many brain diseases and mood disorders. Various extracellular and intracellular stimuli have been shown to modulate survival, proliferation, and differentiation of adult-born cells in the hippocampus especially, through conserved stimuli-response mechanisms like the JNKs, which have been described as regulators of adult neurogenesis. In the present review, the JNK pathway and their control of adult hippocampal neurogenesis is described, evidencing the critical role of JNK1 in this process.
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Jacques, Ryan J., Joshua M. Kapfer, and B. D. Eshelman. "Lack of Response to Olfactory Lures Among Mammals in Riparian Habitat in Southern Wisconsin." Canadian Field-Naturalist 130, no. 1 (2016): 15. http://dx.doi.org/10.22621/cfn.v130i1.1785.
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Non-invasive mammal surveys often employ olfactory stimuli on the assumption that they will attract mammals and increase the success of monitoring projects. However, information on the effectiveness of scent lures is variable and often relies on data generated from mammal tracks or sign, which can be challenging to quantify. Therefore, we sought to determine whether certain olfactory stimuli are more effective than others at eliciting a response from mammals along riparian corridors in Southern Wisconsin, using camera traps to monitor response to four scents and a control of de-ionized water. We recorded the number of times each species responded as well as the length of time spent investigating scents (Muskrat gland, mink gland, Red fox urine, crayfish oil) and the control. We recorded 2812 passes by 16 mammal species during our 12-month study, with Virginia Opossum (Didelphis virginiana), Woodchuck (Marmota monax), Eastern Gray Squirrel (Sciurus carolinensis), Eastern Fox Squirrel (Sciurus niger), Raccoon (Procyon lotor), Coyote (Canis latrans), and White-tailed Deer (Odocoileus virginianus)observed on cameras most frequently. However, 72% of observations involved mammals passing through without investigating any scents or the control, and among the 28% of observations where mammals did investigate, we found no significant differences in their response to specific scents or the control or in response by season. Further analysis revealed no significant differences in the time mammals spent investigating individual scents or the control. The lack of response suggests that factors other than scent may have attracted wildlife to our stations. Although under some circumstances olfactory attractants may increase the level of response to monitoring stations, we suggest that attraction to our stations was largely a behavioural response to novel stimuli in the environment.
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Colman, N. J., C. E. Gordon, M. S. Crowther, and M. Letnic. "Lethal control of an apex predator has unintended cascading effects on forest mammal assemblages." Proceedings of the Royal Society B: Biological Sciences 281, no. 1782 (2014): 20133094. http://dx.doi.org/10.1098/rspb.2013.3094.
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Disruption to species-interaction networks caused by irruptions of herbivores and mesopredators following extirpation of apex predators is a global driver of ecosystem reorganization and biodiversity loss. Most studies of apex predators' ecological roles focus on effects arising from their interactions with herbivores or mesopredators in isolation, but rarely consider how the effects of herbivores and mesopredators interact. Here, we provide evidence that multiple cascade pathways induced by lethal control of an apex predator, the dingo, drive unintended shifts in forest ecosystem structure. We compared mammal assemblages and understorey structure at seven sites in southern Australia. Each site comprised an area where dingoes were poisoned and an area without control. The effects of dingo control on mammals scaled with body size. Activity of herbivorous macropods, arboreal mammals and a mesopredator, the red fox, were greater, but understorey vegetation sparser and abundances of small mammals lower, where dingoes were controlled. Structural equation modelling suggested that both predation by foxes and depletion of understorey vegetation by macropods were related to small mammal decline at poisoned sites. Our study suggests that apex predators’ suppressive effects on herbivores and mesopredators occur simultaneously and should be considered in tandem in order to appreciate the extent of apex predators’ indirect effects.
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Christensen, Dain L., Kristen C. Harmon, Nathaniel H. Wehr, and Melissa R. Price. "Mammal-exclusion fencing improves the nesting success of an endangered native Hawaiian waterbird." PeerJ 9 (March 1, 2021): e10722. http://dx.doi.org/10.7717/peerj.10722.
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Invasive predator control is often critical to improving the nesting success of endangered birds, but methods of control vary in cost and effectiveness. Poison-baiting or trapping and removal are relatively low-cost, but may have secondary impacts on non-target species, and may not completely exclude mammals from nesting areas. Mammal-exclusion fencing has a substantial up-front cost, but due to cost savings over the lifetime of the structure and the complete exclusion of mammalian predators, this option is increasingly being utilized to protect threatened species such as ground-nesting seabirds. However, non-mammalian predators are not excluded by these fences and may continue to impact nesting success, particularly in cases where the fence is designed for the protection of waterbirds, open to an estuary or wetland on one side. Thus, there remains a research gap regarding the potential gains in waterbird nesting success from the implementation of mammal-exclusion fencing in estuarine systems. In this study, we compared the nesting success of endangered Hawaiian Stilts (Ae‘o; Himantopus mexicanus knudseni) within a mammal-exclusion fence to that of breeding pairs in a nearby wetland where trapping was the sole means for removing invasive mammals. We predicted success would be greater for breeding pairs inside the exclusion fence and the hatchlings inside the enclosure would spend more time in the nesting area than hatchlings at the unfenced site. During a single breeding season following construction of a mammal-exclusion fence, we used motion-activated game cameras to monitor nests at two sites, one site with mammal-exclusion fencing and one site without. Clutch sizes and hatch rates were significantly greater at the fenced site than the unfenced site, but time spent by chicks in the nesting area did not differ between sites. These results add to the mounting body of evidence that demonstrates the effectiveness of mammal-exclusion fencing in protecting endangered birds and suggests it can aid endangered Hawaiian waterbirds toward recovery. These results also suggest that the single greatest predatory threat to the Hawaiian Stilt may be invasive mammals, despite a host of known non-mammalian predators including birds, crabs, turtles, and bullfrogs, as the complete exclusion of mammals resulted in significant gains in nesting success. As additional fences are built, future studies are necessary to compare nesting success among multiple sites and across multiple seasons to determine potential gains in fledging success and recruitment.
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Moss, Immanuela Ravé. "Maturation of respiratory control in the behaving mammal." Respiratory Physiology & Neurobiology 132, no. 2 (2002): 131–44. http://dx.doi.org/10.1016/s1569-9048(02)00070-8.
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Grant, Robyn A., Vicki Breakell, and Tony J. Prescott. "Whisker touch sensing guides locomotion in small, quadrupedal mammals." Proceedings of the Royal Society B: Biological Sciences 285, no. 1880 (2018): 20180592. http://dx.doi.org/10.1098/rspb.2018.0592.
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All small mammals have prominent facial whiskers that they employ as tactile sensors to guide navigation and foraging in complex habitats. Nocturnal, arboreal mammals tend to have the longest and most densely packed whiskers, and semi-aquatic mammals have the most sensitive. Here we present evidence to indicate that many small mammals use their whiskers to tactually guide safe foot positioning. Specifically, in 11, small, non-flying mammal species, we demonstrate that forepaw placement always falls within the ground contact zone of the whisker field and that forepaw width is always smaller than whisker span. We also demonstrate commonalities of whisker scanning movements (whisking) and elements of active control, associated with increasing contact with objects of interest, across multiple small mammal species that have previously only been shown in common laboratory animals. Overall, we propose that guiding locomotion, alongside environment exploration, is a common function of whisker touch sensing in small, quadrupedal mammals.
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Burbidge, A. A. "Conservation Values and Management of Australian Islands for Non-Volant Mammal Conservation." Australian Mammalogy 21, no. 1 (1999): 67. http://dx.doi.org/10.1071/am99067.
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At least 16 species of Australian mammals have become extinct over the past 200 years. Without islands, however, this figure would be even worse as nine species that were formerly widespread on mainland Australia were or are restricted to land-bridge islands. In addition, 13 species and subspecies of endangered and vulnerable mainland mammals that still occur on the mainland have island populations, reducing their chance of extinction. In all, 43 islands protect 29 taxa of Australian threatened mammals. Since European settlement some island mammal populations have become extinct, while many new populations, of both Australian and exotic mammals, have been established. The extinction of island native mammal populations is significantly correlated with the introduction of exotic mammals. Management of islands needs to concentrate on four areas: quarantine, monitoring (of both native mammals and possible introduction of exotics), eradication of exotics and translocations of native species. Prevention of introduction and establishment of further exotics to important islands through quarantine procedures is vital, especially for islands with permanent or temporary human habitation. Eradication or control of existing exotics is required for many islands and eradication of further introductions, as soon after detection as possible, should be a high priority action for nature conservation agencies. Past exotic mammal eradications and needs for the future are discussed. Translocations of island mammal populations to the mainland should take place only where the species is extinct on the mainland. Translocation to islands, where translocation to or on the mainland is not feasible, is an important conservation technique. Islands with exotics can be of value for re-introduction of locally extinct mammals or introductions (marooning) of threatened species that are at risk from feral predators on the mainland once the exotics have been eliminated.
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Montes de Oca, Daniela Paula, Martín Neyen Lammel, and Regino Cavia. "Small-mammal assemblages in piggeries in a developing country: relationships with management practices and habitat complexity." Wildlife Research 47, no. 6 (2020): 485. http://dx.doi.org/10.1071/wr19199.
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Abstract ContextPig production is increasing in developing countries and is increasing the coexistence of different production systems regarding management practices. Small mammals can cause major economic and sanitary problems on pig farms. The interactions among small mammals, production practices and habitat complexity have been sparsely studied. AimsThe aim was to compare small-mammal assemblages on extensive and intensive pig-production systems, and to analyse the relationship with environmental characteristics and management practices. MethodsSeasonal live-trapping of small mammals within 18 farms (under intensive or extensive management) was performed in central Argentina, simultaneously with a survey of environmental and management practices. Multiple regression analyses were performed to assess the relation between infestation levels and environmental characteristics. Key results In total, 472 small mammals were captured, including the exotic murids Rattus norvegicus, R. rattus and Mus musculus, three native sigmodontines, namely, Akodon azarae, Oligoryzomys flavescens and Oxymycterus rufus, and two native marsupials, namely, Didelphis albiventris and Lutreolina crassicaudata. The location of waste deposits, the density of cats, the frequency of rodent control and the way pig food was stored influenced wild small-mammal abundance; exotic rodent species were lower when the density of cats increased. Rattus norvegicus was more abundant where rodent control was not frequent or null, contrary to M. musculus. Both species were more abundant in food and pig sheds, whereas native species were associated with vegetated areas outside of sheds. Also, A. azarae was associated with the density of pigs. Didelphis albiventris was more abundant on extensive farms, whereas L. crassicaudata was captured on intensive farms. Conclusions Small-mammal abundance did not respond to the type of production system per se, but exotic species abundance was influenced by management decisions. The most important human behaviours related to exotic rodent infestation were the possession of cats, the frequency of rodent control and the way waste and pig feed were managed. Implications Our findings highlighted the need for integrated studies on factors influencing the dynamics of rodent populations in commercial piggery systems, for the development of effective pest management. Management recommendations need to assess environmental complexity and human behaviour as important moderators of the population dynamics of small mammal species in and around piggeries.
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Castellanos, Adrian A., Matthew C. I. Medeiros, Gabriel L. Hamer, et al. "Decreased small mammal and on-host tick abundance in association with invasive red imported fire ants ( Solenopsis invicta )." Biology Letters 12, no. 9 (2016): 20160463. http://dx.doi.org/10.1098/rsbl.2016.0463.
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Invasive species may impact pathogen transmission by altering the distributions and interactions among native vertebrate reservoir hosts and arthropod vectors. Here, we examined the direct and indirect effects of the red imported fire ant ( Solenopsis invicta ) on the native tick, small mammal and pathogen community in southeast Texas. Using a replicated large-scale field manipulation study, we show that small mammals were more abundant on treatment plots where S. invicta populations were experimentally reduced. Our analysis of ticks on small mammal hosts demonstrated a threefold increase in the ticks caught per unit effort on treatment relative to control plots, and elevated tick loads (a 27-fold increase) on one common rodent species . We detected only one known human pathogen ( Rickettsia parkeri ), present in 1.4% of larvae and 6.7% of nymph on-host Amblyomma maculatum samples but with no significant difference between treatment and control plots. Given that host and vector population dynamics are key drivers of pathogen transmission, the reduced small mammal and tick abundance associated with S. invicta may alter pathogen transmission dynamics over broader spatial scales.
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Holmes, M. M., G. J. Rosen, C. L. Jordan, G. J. de Vries, B. D. Goldman, and N. G. Forger. "Social control of brain morphology in a eusocial mammal." Proceedings of the National Academy of Sciences 104, no. 25 (2007): 10548–52. http://dx.doi.org/10.1073/pnas.0610344104.
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Kuiper, T. R., and D. M. Parker. "Grass height is the determinant of sheep grazing effects on small mammals in a savanna ecosystem." Rangeland Journal 35, no. 4 (2013): 403. http://dx.doi.org/10.1071/rj13063.
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Small mammals play an important role in many ecosystems; hence, the factors that influence their community structure are of interest. Ungulate grazing is one such factor, and this study focussed on the effect of sheep (Ovis aries) grazing in a savanna ecosystem on small-mammal community structure. In a landscape-scale assessment, small-mammal community structure was compared at three different levels of grazing on a sheep farm in the Sub-Escarpment Savanna of the Eastern Cape, South Africa. In total, 97 small-mammal individuals across seven species were trapped. Of these individuals, 81.4% were trapped on the no-grazing control, whereas 15.5% and 3.1% were trapped on the medium- and high-grazing treatments, respectively. The results showed that the only significant differences in abundance, diversity, evenness, and richness of small mammals among grazing treatments were those mediated by the effect of grazing on grass height. It is proposed that the reduction in grass height associated with grazing is the primary mechanism by which sheep adversely affect small mammals in this ecosystem. This could be explained by the increased exposure of small mammals to predators after grazing of grass by sheep, and food competition between sheep and small mammals. The data also suggest that small mammals may persist in small and isolated patches of suitable habitat (long grass) within heavily grazed pastures subjected to rotational grazing. In the broader context of community ecology, this study sheds light on cryptic and dynamic interactions between two quite different grazing guilds. Experimental work of this kind may help to determine the role of introduced sheep in biodiversity loss of small mammals across the globe.
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Steinbeiser, C. M., C. A. Wawrzynowski, X. Ramos, and Z. H. Olson. "Scavenging and the ecology of fear: do animal carcasses create islands of risk on the landscape?" Canadian Journal of Zoology 96, no. 3 (2018): 229–36. http://dx.doi.org/10.1139/cjz-2016-0268.
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Many vertebrate scavengers function as predators in ecosystems, suggesting that the presence of scavengers and occurrence of predator effects may be intertwined near carcasses. We tested for risk effects near a series of experimentally placed carcasses by measuring small-mammal foraging in a before–after control–impact design. Validation efforts revealed low levels of food loss from stations due to human error and invertebrate foraging, and habituation to stations occurred after 2 weeks. Increased perceived predation risk by small mammals relative to controls occurred in three of seven trials. The effect was observed across tested carcass types (beaver, Castor canadensis Kuhl, 1820; white-tailed deer, Odocoileus virginianus (Zimmermann, 1780)) and seasons (summer and fall). However, small mammals also increased foraging relative to controls in two of seven trials, and foraging reached a ceiling in two other trials that prevented inference on a response. Taken together, our results suggest that scavenger recruitment to carcasses can in some instances create islands of risk for prey on the landscape, but the effect is not likely to be universal. Where small-mammal foraging does decrease, further work will be necessary to determine if risk effects cascade to adjacent trophic levels through enhanced seed and seedling survival.
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Monasmith, Tony J., Stephen Demarais, J. Jeffrey Root, and Carlton M. Britton. "Short-Term Fire Effects on Small Mammal Populations and Vegetation of the Northern Chihuahuan Desert." International Journal of Ecology 2010 (2010): 1–9. http://dx.doi.org/10.1155/2010/189271.
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Fire is an important ecological factor in semidesert grass-shrub community dynamics, but there is a lack of designed field experiments documenting effects on vegetation and small mammals. We document effects of June prescribed fire on vegetation and small mammals on 20, 25-ha study areas in the Northern Chihuahuan Desert of Southern New Mexico, USA one month and one year posttreatment. Canopy cover of shrubs and grasses recovered to 68 and 27% of the preburn canopy cover, respectively, after one year. Prescribed burns during June enhanced short-term forb production by reducing competition from grasses and shrubs. Thirty thousand trap-nights yielded 1744 captures of 766 individuals of 15 small mammal species. Burns did not affect small mammal species richness and species diversity. Relative abundance of Merriam's kangaroo rats (Dipodomys merriami) was 91% greater on burned sites than on control sites one year postburn. Silky pocket mouse (Perognathus flavus) relative abundance was 221% greater on burned sites one year postburn. Chihuahuan Desert pocket mice (Chaetodipus eremicus) responded negatively to the fire, with relative abundance 170% greater on control sites (). Burning produced short-term benefits for two heteromyids, Merriam's kangaroo rats and silky pocket mice.
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Mohd-Taib, Farah Shafawati, and Siti Nabilah Ishak. "BAIT PREFERENCES BY DIFFERENT SMALL MAMMAL ASSEMBLAGES FOR EFFECTIVE CAGE-TRAPPING." Malaysian Journal of Science 40, no. 2 (2021): 1–15. http://dx.doi.org/10.22452/mjs.vol40no2.1.
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The ecological study of small mammals often uses the cage-trapping method, installed with baits. Capture rates vary according to different baits used. We want to determine the bait preferences by different small mammal groups. The cage-trapping approach used common domestic bait types available, namely, aromatic banana, sweet potato with peanut butter, oil palm fruit, dried salted fish, jackfruit, and roasted coconut flesh. Sampling was conducted in three different habitat categories, namely urban, semi-urban, and recreational forests, located in Selangor, Malaysia, for one year. A total of 537 small mammals from 15 species were sampled, which was then grouped into seven groups (i.e., Rattus sp., Maxomys sp., Sundamys sp., Leopaldamys sabanus, Suncus murinus, squirrels, and Tupaia glis). Bait preferences were significantly different among the different small mammal groups, i.e., F (6,35) = 5.621, p = 0.000, with bananas shown to be most preferred bait, followed by oil palm fruits and sweet potatoes. Non-metric multidimensional scaling (nMDS) analysis revealed that the Rattus species encompassed the most diverse bait preference, while S. murinus and L. sabanus were the most selective. Muridae preferred sweet potatoes with peanut butter over bananas, while Sciuridae and Tupaiidae preferred bananas, and Soricidae preferred dried salted fish. This study elucidates the most effective bait selection for different small mammal assemblages, serving as a guide to increase capture rates when sampling targeted population of small mammals. Apart from that, it is helpful for effective rodent pest control.
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Abarca-Buis, RenéFernando, María Elena Contreras-Figueroa, David Garciadiego-Cázares, and Edgar Krötzsch. "Control of fibrosis by TGFβ signalling modulation promotes redifferentiation during limited regeneration of mouse ear." International Journal of Developmental Biology 64, no. 7-8-9 (2020): 423–32. http://dx.doi.org/10.1387/ijdb.190237ra.
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Transforming growth factor beta (TGFβ) signalling is involved in several aspects of regeneration in many organs and tissues of primitive vertebrates. It has been difficult to recognize the role of this signal in mammal regeneration due to the low ability of this animal class to reconstitute tissues. Nevertheless, ear-holes in middle-age female mice represent a model to study the limited epimorphic-like regeneration in mammals. Using this model, in this study we explored the possible participation of TGFβ signalling in mammal regeneration. Positive pSmad3 cells, as well as TGFβ1 and TGFβ3 isoforms, were detected during the redifferentiation phase in the blastema-like structure. Daily administration of the inhibitor of the TGFβ intracellular pathway, SB431542, during 7 days from the re-differentiation phase, resulted in a decreased level of pSmad3 accompanied by a transitory higher growth of the new tissue, larger cartilage nodules, and new muscle formation. These phenotypes were associated with a decrease in the number of α-SMA-positive cells and loose packing of collagen I. These results indicate that the modulation of the fibrosis mediated by TGFβ signalling contributes to enhancing the differentiation of cartilage and muscle during limited ear-hole regeneration.
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Squire, TL, VW Bauer, MJ Buck, and MT Andrews. "Genetic control of low-temperature metabolism in a hibernating mammal." Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 124 (August 1999): S26. http://dx.doi.org/10.1016/s1095-6433(99)90102-2.
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O., Wai-Sum, R. V. Short, Marilyn B. Renfree, and G. Shaw. "Primary genetic control of somatic sexual differentiation in a mammal." Nature 331, no. 6158 (1988): 716–17. http://dx.doi.org/10.1038/331716a0.
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Shilova, S. A. "Biocenotic consequences of small mammal population control in natural ecosystems." Russian Journal of Ecology 46, no. 2 (2015): 175–80. http://dx.doi.org/10.1134/s1067413615020101.
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Hradsky, Bronwyn A. "Conserving Australia’s threatened native mammals in predator-invaded, fire-prone landscapes." Wildlife Research 47, no. 1 (2020): 1. http://dx.doi.org/10.1071/wr19027.
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Abstract Inappropriate fire regimes and predation by introduced species each pose a major threat to Australia’s native mammals. They also potentially interact, an issue that is likely to be contributing to the ongoing collapse of native mammal communities across Australia. In the present review, I first describe the mechanisms through which fire could create predation pinch points, exacerbating the impacts of predators, including red foxes, Vulpes vulpes, and feral cats, Felis catus, on their native mammalian prey. These mechanisms include a localised increase in predator activity (a numerically mediated pathway) and higher predator hunting success after fire (a functionally moderated pathway), which could both increase native mammal mortality and limit population recovery in fire-affected landscapes. Evidence for such interactions is growing, although largely based on unreplicated experiments. Improving native mammal resilience to fire in predator-invaded landscapes requires addressing two key questions: how can the impacts of introduced predators on native mammals in fire-affected areas be reduced; and, does a reduction in predation by introduced species result in higher native mammal survival and population recovery after fire? I then examine potential management options for reducing predator impacts post-fire. The most feasible are landscape-scale predator control and the manipulation of fire regimes to create patchy fire scars. However, robust field experiments with adequate statistical power are required to assess the effectiveness of these approaches and preclude null (e.g. compensatory mortality) or adverse (e.g. mesopredator or competitor release) outcomes. Ongoing predator management and prescribed burning programs provide an opportunity to learn through replicated natural experiments as well as experimental manipulations. Standardised reporting protocols and cross-jurisdiction monitoring programs would help achieve necessary spatial and environmental replication, while multi-trophic, spatially explicit simulation models could help synthesise findings from disparate study designs, predict management outcomes and generate new hypotheses. Such approaches will be key to improving management of the complex mechanisms that drive threatened native mammal populations in Australia’s predator-invaded, fire-prone landscapes.
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Wilson, Barbara A., Leonie E. Valentine, Alice Reaveley, Joanne Isaac, and Kristen M. Wolfe. "Terrestrial mammals of the Gnangara Groundwater System, Western Australia: history, status, and the possible impacts of a drying climate." Australian Mammalogy 34, no. 2 (2012): 202. http://dx.doi.org/10.1071/am11040.
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Over the last 30 years declining rainfall and increased aquifer abstraction have heavily impacted water availability and ecosystems on the Gnangara Groundwater System (GGS). The mammal fauna of the area is considered to have been rich, with up to 28 terrestrial and 5 volant native species recorded since European settlement. This study investigated previous and current distribution of mammals on the GGS, and assessed potential impacts of predicted rainfall and groundwater declines on mammals. A general survey was conducted at 40 sites, and targeted trapping was undertaken for Hydromys chrysogaster and Isoodon obesulus fusciventer at wetlands. Nine native and seven introduced terrestrial mammal species were recorded during the general survey and capture rates were very low (1.05%). The most commonly captured native species was Tarsipes rostratus. There is evidence that only 11 (9 recorded and 2 considered to be extant) of the 28 historically recorded terrestrial native mammals still persist in the area. The species predicted to be most susceptible to rainfall and groundwater level declines include H. chrysogaster, I. obesulus fusciventer, and T. rostratus. Management and recovery actions required to protect mammals under predicted climatic changes include identification and maintenance of refugia and ecological linkages, supplementation of lakes, development of ecologically appropriate fire regimes, and control of predators.
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Cowan, P. E., and C. H. Tyndale-Biscoe. "Australian and New Zealand mammal species considered to be pests or problems." Reproduction, Fertility and Development 9, no. 1 (1997): 27. http://dx.doi.org/10.1071/r96058.
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In New Zealand and Australia, 25 and 16 introduced mammals are viewed as pests, respectively, as well as a further 17 native mammals in Australia. Most introductions were deliberate and the deleterious effects became apparent later. These pests affect primary production, act as a sylvatic reservoir of disease, cause degradation of natural ecosystems, or threaten rare or endangered native animals and plants. Many species have multiple impacts. In Australia, some native mammals, particularly kangaroos and wallabies, are also controlled because of their adverse impacts on primary production. In both countries, current control depends largely on the use of poisons, shooting, the spread of disease (in the case of rabbits), trapping, habitat alteration, and commercial or recreational hunting. Methods of control by interfering with fertility (immunocontraception) are currently being investigated for rabbits, house mice, foxes, and kangaroos in Australia, and for the brushtail possum in New Zealand. If these methods prove effective, they may be applied to other mammal pests, but the need to tailor the particular approach to the ecology and behaviour of the species means that there will be a necessarily long lead time
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Rosa, Clarissa Alves da, and Agnis Cristiane Souza. "Large and medium-sized mammals of Nova Baden State Park, Minas Gerais, Brazil." Check List 13, no. 3 (2017): 2141. http://dx.doi.org/10.15560/13.3.2141.
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Nova Baden State Park (NBSP) is located in the Brazilian Atlantic Forest which is a biodiversity hotspot and priority for conservation. Our aim is to provide a list of large and medium-sized mammal species recorded in NBSP. We made a camera trap survey and opportunistic observations from December 2014 to September 2015, and searched the grey literature. We recorded 12 large and medium-sized mammals in our survey and 11 more species listed in grey literature. The 23 species registered for NBSP belong to eight orders (Carnivora, Primates, Rodents, Cingulata, Pilosa, Didephimorphia, Lagomorpha and Artiodactyla), including threatened species at local, national and global levels. With an important mammal biodiversity, we concluded that avoidance of poaching and the control of domestic dogs need to be priorities for biodiversity conservation of NBSP, with a political management that includes the local community in Park activities.
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Wolgemuth, DJ, K. Rhee, S. Wu, and SE Ravnik. "Genetic control of mitosis, meiosis and cellular differentiation during mammalian spermatogenesis." Reproduction, Fertility and Development 7, no. 4 (1995): 669. http://dx.doi.org/10.1071/rd9950669.
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Gametogenesis in both the male and female mammal represents a specialized and highly regulated series of cell cycle events, involving both mitosis and meiosis as well as subsequent differentiation. Recent advances in our understanding of the genetic control of the eukaryotic cell cycle have underscored the evolutionarily-conserved nature of these regulatory processes. However, most of the data have been obtained from yeast model systems and mammalian cell lines. Furthermore, most of the observations focus on regulation of mitotic cell cycles. In the present paper: (i) aspects of gametogenesis in mammals that represent unique cell-cycle control points are highlighted; (ii) current knowledge on the regulation of the germ cell cycle, in the context of what is known in yeast and other model eukaryotic systems, is summarized; and (iii) strategies that can be used to identify additional cell cycle regulating genes are outlined.
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Lanier, Hayley, Andy Kulikowski, R. Seville, Zachary Roehrs, and Meredith Roehrs. "Succession Effects on Mammal and Inverterbrate Communities 26 Years After the 1988 huckleberry Mountain Fire." UW National Parks Service Research Station Annual Reports 37 (January 1, 2014): 49–57. http://dx.doi.org/10.13001/uwnpsrc.2014.4045.
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Fires are an important and increasingly common driver of habitat structure in the intermountain West. Through an ongoing study of burned and adjacent unburned areas along the John D. Rockefeller, Jr. Memorial Parkway, we examine the long-term effects of the 1988 fire season on community assembly, succession, and ecological processes. We collected mark/recapture data on rodents, removal data for insectivorous mammals and invertebrates, and habitat measurements on four grids in 2014 and combined these results with previous survey data. In 2014, 4,800 trap nights yielded 13 species of small mammals, comprising 618 individuals. Macroarthropod abundance was higher on burned grids, but diversity was higher on unburned grids. In contrast, springtail (Collembola) diversity was higher on burned grids, but abundance was highest in unburned grids. Since the beginning of this long-term study, the total number of mammal species has increased across all sites, and relative abundance in burned areas has shifted from early successional species (Peromyscus maniculatus) to those more associated with old growth forests (such as Myodes gapperi). Other than in 1991, the burned grids have harbored more diverse small mammal communities than the unburned control grids. Significant, long-term differences in vegetation based upon burn history were observed, including different ground cover, less canopy cover, and more coarse woody debris in burned sites. This work provides a unique long-term picture of the interrelationships of small mammal and invertebrate communities and correlated habitat variables as these ecosystems undergo post-fire succession.
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Coates, T. D. "The effect of fox control on mammal populations in an outer urban conservation reserve." Australian Mammalogy 30, no. 2 (2008): 51. http://dx.doi.org/10.1071/am08007.
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European red foxes were systematically removed from a 370 ha conservation reserve on Melbourne?s urban fringe between December 2003 and September 2005. Activity indexes monitored throughout the removal phase indicated that the fox population declined dramatically when poison baits were available and then increased again predictably during winter and summer each subsequent year. Three alternate indices of fox activity were highly synchronous throughout the study suggesting that the bait-removal index used widely in Australia may provide a reliable measure of overall fox activity in small urban reserves. With monitoring and strategic baiting, fox activity was maintained at a fraction of its pre-control level. Activity indices for several other species of mammal also appeared to respond to the reduced density of foxes at the site after 2003. Southern brown bandicoots (Isoodon obesulus) and swamp wallabies (Wallabia bicolor) increased in both activity and range after the reduction in the fox population indicating that fox predation may act to limit both the total size of populations and types of vegetation occupied by indigenous mammals in small patches of remnant vegetation.
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Addison, R. F. "Organochlorines and Marine Mammal Reproduction." Canadian Journal of Fisheries and Aquatic Sciences 46, no. 2 (1989): 360–68. http://dx.doi.org/10.1139/f89-047.
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Reproductive failures in four populations of marine mammals (Californian sea lions (Zalophus californianus), Bothnian Bay ringed seals (Pusa hispida), Dutch Waddensee harbour seals (Phoca vitulina), and most recently, Gulf of St. Lawrence beluga whales (Delphinapterus leucas)) have been attributed to the effects of contamination by organochlorine (OC) residues. In this article, I review the evidence for these effects. I conclude that since (a) crucial biological information in the light of which OC residue data can be interpreted is often missing, (b) the nature of the supposed reproductive effect is variable, and (c) the OC residues to which these effects are attributed vary qualitatively and quantitatively, correlations between observed residue concentrations and apparent reproductive changes do not provide any firm evidence for a cause – effect relationship. In a single experimental study, a diet with a higher OC content than that used as a control impaired reproduction in harbour seals; however, dietary components other than OC content also differed. Although there appears to be no firm correlative evidence sinking residue concentrations in marine mammals with reproductive effects, there is enough concern about possible links to justify more experimental studies, with the aim of identifying the possible biochemical mechanisms involved.
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Switalski, Aaron B., and Heather L. Bateman. "Anthropogenic water sources and the effects on Sonoran Desert small mammal communities." PeerJ 5 (November 10, 2017): e4003. http://dx.doi.org/10.7717/peerj.4003.
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Anthropogenic water sources (AWS) are developed water sources used as a management tool for desert wildlife species. Studies documenting the effects of AWS are often focused on game species; whereas, the effects on non-target wildlife are less understood. We used live trapping techniques to investigate rodent abundance, biomass, and diversity metrics near AWS and paired control sites; we sampled vegetation to determine rodent-habitat associations in the Sauceda Mountains of the Sonoran Desert in Arizona. A total of 370 individual mammals representing three genera and eight species were captured in 4,800 trap nights from winter 2011 to spring 2012. A multi-response permutation procedure was used to identify differences in small mammal community abundance and biomass by season and treatment. Rodent abundance, biomass, and richness were greater at AWS compared to control sites. Patterns of abundance and biomass were driven by the desert pocket mouse (Chaetodipus penicillatus) which was the most common capture and two times more numerous at AWS compared to controls. Vegetation characteristics, explored using principal components analysis, were similar between AWS and controls. Two species that prefer vegetation structure, Bailey’s pocket mouse (C. baileyi) and white-throated woodrat (Neotoma albigula), had greater abundances and biomass near AWS and were associated with habitat having high cactus density. Although small mammals do not drink free-water, perhaps higher abundances of some species of desert rodents at AWS could be related to artificial structure associated with construction or other resources. Compared to the 30-year average of precipitation for the area, the period of our study occurred during a dry winter. During dry periods, perhaps AWS provide resources to rodents related to moisture.
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Hindle, Allyson G. "Diving deep: understanding the genetic components of hypoxia tolerance in marine mammals." Journal of Applied Physiology 128, no. 5 (2020): 1439–46. http://dx.doi.org/10.1152/japplphysiol.00846.2019.
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Marine mammals have highly specialized physiology, exhibited in many species by extreme breath-holding capabilities that allow deep dives and extended submergence. Cardiovascular control and cell-level hypoxia tolerance are key features of this phenotype. Identifying genomic signatures tied to physiology will be valuable in understanding these natural model species, which may generate translational opportunities to human diseases arising from hypoxic stress or tissue injury. Genomic analyses have now been conducted in dolphins, river dolphins, minke whales, bowhead whales, and polar bears, with multispecies studies exploring evolutionary signals across marine mammal lineages, encompassing extinct and extant divers. Single-species genome studies for sirenians do not yet exist. Extant marine mammals arose in three lineages from separate aquatic recolonizations. Their physiological specializations, along with these independent origins create an interesting case to examine convergent evolution. Although molecular mechanisms of hypoxia tolerance are not universally apparent across marine mammal genomic studies, altered evolutionary rates have been identified for genes linked to oxygen binding and transport (e.g., MB, HBA, and HBB), blood pressure control (e.g., endothelin pathway genes), and cell protection in multiple species. Despite convergent phenotypes across clades, instances of identical molecular convergence have been uncommon. Given the inherent logistical and regulatory difficulties associated with functional genetic experiments in marine mammals, several avenues of further investigation are suggested to enable validation of candidate genes for hypoxia tolerance: leveraging phylogeny to better understand convergent phenotypes; ontogenic studies to identify regulation of key genes underlying the elite, adult, hypoxia-tolerant physiology; and cell culture manipulations to understand gene function.
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Kronland, William J., and Marco Restani. "Effects of Post-Fire Salvage Logging on Cavity-Nesting Birds and Small Mammals in Southeastern Montana." Canadian Field-Naturalist 125, no. 4 (2012): 316. http://dx.doi.org/10.22621/cfn.v125i4.1260.
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We investigated how post-fire salvage logging of Ponderosa Pine (Pinus ponderosa) affected populations of cavity-nesting birds and small mammals in southeastern Montana in 2004 and 2005. We examined two salvage and two control plots with three point-count stations and one small mammal trap site randomly distributed across each plot. We used point counts and distance sampling methods to estimate density of cavity-nesting birds on each treatment. We also searched each plot for nests and used program MARK to construct a set of candidate models to investigate variations in nest survival related to treatment, year, and time. We used live traps arranged in webs centered on trapping sites and distance sampling methods to estimate small mammal density. Habitat characteristics were also quantified on each plot. Density of all cavity-nesting birds combined and of Hairy Woodpeckers (Picoides villosus) in particular were higher on the control than the salvage treatment. Density of large trees and abundance of active cavities were higher on the control treatment. Nest cavities on the salvage treatment were most often located in non-logged watersheds. Nest survival estimates were uniformly high, with only marginal variations attributed to treatment and year. Density of Deer Mice (Peromyscus maniculatus) was higher on the salvage than the control treatment, reflecting the amount of downed woody debris created during harvest.
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Nolte, Kenneth R., and Timothy E. Fulbright. "Plant, Small Mammal, and Avian Diversity following Control of Honey Mesquite." Journal of Range Management 50, no. 2 (1997): 205. http://dx.doi.org/10.2307/4002382.
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Sinclair, A. R. E. "Fertility control of mammal pests and the conservation of endangered marsupials." Reproduction, Fertility and Development 9, no. 1 (1997): 1. http://dx.doi.org/10.1071/r96057.
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Populations are bounded by negative feedbacks operating through fertility or mortality, termedpopulation regulation. If fertility is artificially reduced, the average size of the population is also reduced, but only under certain conditions. If (i) juvenile survival or (ii) adult survival improve due to lower fertility, or (iii) territoriality limits populations, the effects of lower birth rate will not change population size unless such reduction exceeds the effects of these processes. Published data on population trends and birth rates have allowed a comparison among species of instantaneous rates of change. The intrinsic rate of increase, rm, and population variability are both related to body size, because birth rates and survivorship are also related to body size. These rates are trade-offs as adaptations. Populations of species in exotic habitats may fluctuate more than when they are in their indigenous habitats. Fertility control could reduce such fluctations. Marsupials have lower birth rates than eutherians, and so rely more on survivorship, perhaps as an adaptation to unpredictable environments. Compromising survival by either habitat change or increased predation will affect marsupials more than eutherians. This explains why many marsupial populations are declining towards extinction.
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Oldham, Sean, Ruth Böhni, Hugo Stocker, Walter Brogiolo, and Ernst Hafen. "Genetic control of size in Drosophila." Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences 355, no. 1399 (2000): 945–52. http://dx.doi.org/10.1098/rstb.2000.0630.
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During the past ten years, significant progress has been made in understanding the basic mechanisms of the development of multicellular organisms. Genetic analysis of the development of Caenorhabditis elegans and Drosophila has unearthed a fruitful number of genes involved in establishing the basic body plan, patterning of limbs, specification of cell fate and regulation of programmed cell death. The genes involved in these developmental processes have been conserved throughout evolution and homologous genes are involved in the patterning of insect and human limbs. Despite these important discoveries, we have learned astonishingly little about one of the most obvious distinctions between animals: their difference in body size. The mass of the smallest mammal, the bumble–bee bat, is 2g while that of the largest mammal, the blue whale, is 150t or 150 million grams. Remarkably, even though they are in the same class, body size can vary up to 75–million–fold. Furthermore, this body growth can be finite in the case of most vertebrates or it can occur continuously throughout life, as for trees, molluscs and large crustaceans. Currently, we know comparatively little about the genetic control of body size. In this article we will review recent evidence from vertebrates and particularly from Drosophila that implicates insulin/insulin–like growth factor–I and other growth pathways in the control of cell, organ and body size.
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Nwosu, Luke Chinaru. "Assessment of bone charcoal dusts of six species of mammal for the postharvest control of Callosobruchus maculatus Fabricius (Coleoptera: Chrysomelidae) infestations of cowpea seeds: can the charcoal dust affect seed viability in laboratory and in field?" Food Quality and Safety 3, no. 4 (2019): 279–87. http://dx.doi.org/10.1093/fqsafe/fyz028.
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Abstract Objectives The possibility that bone charcoal dusts of some species of mammal will control the major insect pest of stored cowpea seeds and the implications on seed viability (after pest control process) were investigated in the laboratory at ambient temperature (30 ± 3°C) and relative humidity (70 ± 5%) and in field. Materials and Methods Standard entomological and agronomical techniques were used. Results The results showed that at 1.0% w/w dosage, the bone charcoal dusts of Ovis aries and Bos taurus were more effective than permethrin standard insecticide in killing adult Callosobruchus maculatus Fab. infesting cowpea seeds in storage. Bos taurus had a faster action speed than permethrin at 1.0% w/w. At 1.5% w/w of dust, all the species of mammal investigated deterred oviposition considerably in C. maculatus females, whereas only the bone charcoal dusts of O. aries and Sus scrofa were comparable with permethrin in suppressing adult emergence and seed damage; S. scrofa only was comparable with permethrin in reducing larval density. Bone charcoal dusts of O. aries and S. scrofa require chemical and olfactory analyses to know if they might have caused irritation to the insects and disrupted insect circadian rhythm, affecting behaviour and mating activities, adversely. The bone charcoal dusts of the six species of mammal at a highest test dose of 1.5% w/w allowed high seed viability in both laboratory and field. Conclusion The study recommends the use of bone charcoal dusts of O. aries and S. scrofa at economical- and quality-favourable dose 1.5% w/w for managers seeking to control C. maculatus insect attacking cowpea seeds in storage. The transitive components of the bones, abrasion of the insect epicuticle lipid layer by the charcoal dust, and combustion-related toxic factors were responsible for the insecticidal activities of the bone charcoal dusts of the mammals.
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Cross, Frederick R., Nicolas E. Buchler, and Jan M. Skotheim. "Evolution of networks and sequences in eukaryotic cell cycle control." Philosophical Transactions of the Royal Society B: Biological Sciences 366, no. 1584 (2011): 3532–44. http://dx.doi.org/10.1098/rstb.2011.0078.
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The molecular networks regulating the G1–S transition in budding yeast and mammals are strikingly similar in network structure. However, many of the individual proteins performing similar network roles appear to have unrelated amino acid sequences, suggesting either extremely rapid sequence evolution, or true polyphyly of proteins carrying out identical network roles. A yeast/mammal comparison suggests that network topology, and its associated dynamic properties, rather than regulatory proteins themselves may be the most important elements conserved through evolution. However, recent deep phylogenetic studies show that fungal and animal lineages are relatively closely related in the opisthokont branch of eukaryotes. The presence in plants of cell cycle regulators such as Rb, E2F and cyclins A and D, that appear lost in yeast, suggests cell cycle control in the last common ancestor of the eukaryotes was implemented with this set of regulatory proteins. Forward genetics in non-opisthokonts, such as plants or their green algal relatives, will provide direct information on cell cycle control in these organisms, and may elucidate the potentially more complex cell cycle control network of the last common eukaryotic ancestor.
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Caspar, Kai R., Katrin Moldenhauer, Regina E. Moritz, Pavel Němec, E. Pascal Malkemper, and Sabine Begall. "Eyes are essential for magnetoreception in a mammal." Journal of The Royal Society Interface 17, no. 170 (2020): 20200513. http://dx.doi.org/10.1098/rsif.2020.0513.
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Several groups of mammals use the Earth's magnetic field for orientation, but their magnetosensory organ remains unknown. The Ansell's mole-rat ( Fukomys anselli , Bathyergidae, Rodentia) is a microphthalmic subterranean rodent with innate magnetic orientation behaviour. Previous studies on this species proposed that its magnetoreceptors are located in the eye. To test this hypothesis, we assessed magnetic orientation in mole-rats after the surgical removal of their eyes compared to untreated controls. Initially, we demonstrate that this enucleation does not lead to changes in routine behaviours, including locomotion, feeding and socializing. We then studied magnetic compass orientation by employing a well-established nest-building assay under four magnetic field alignments. In line with previous studies, control animals exhibited a significant preference to build nests in magnetic southeast. By contrast, enucleated mole-rats built nests in random magnetic orientations, suggesting an impairment of their magnetic sense. The results provide robust support for the hypothesis that mole-rats perceive magnetic fields with their minute eyes, probably relying on magnetite-based receptors in the cornea.
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Bilney, Rohan J., John G. White, and Raylene Cooke. "Reversed sexual dimorphism and altered prey base: the effect on sooty owl (Tyto tenebricosa tenebricosa) diet." Australian Journal of Zoology 59, no. 5 (2011): 302. http://dx.doi.org/10.1071/zo11101.
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The ecology and function of many Australian predators has likely been disrupted following major changes in prey base due to declines in distribution and abundance of small mammals following European settlement. This study investigated various aspects of the dietary ecology of sooty owls (Tyto tenebricosa tenebricosa), including sexual variation as they potentially exhibit the greatest degree of reversed sexual dimorphism of any owl species worldwide. Sooty owls are highly opportunistic predators of non-volant small mammals, consuming most species known to exist in the region, so their diet fluctuates seasonally and spatially due to varying prey availability, and is particularly influenced by the breeding cycles of prey. Significant intersexual dietary differences existed with female sooty owls predominantly consuming much larger prey items than males, with dietary overlap at 0.62. The current reliance on relatively few native mammalian species is of conservation concern, especially when mammal declines are unlikely to have ceased as many threatening processes still persist in the landscape. Sooty owl conservation appears inextricably linked with small mammal conservation. Conservation efforts should be focussed towards improving prey densities and prey habitat, primarily by implementing control programs for feral predators and preventing the loss of hollow-bearing trees throughout the landscape.
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Sullivan, Thomas P., and Jacob O. Boateng. "Comparison of small-mammal community responses to broadcast burning and herbicide application in cutover forest habitats." Canadian Journal of Forest Research 26, no. 3 (1996): 462–73. http://dx.doi.org/10.1139/x26-052.
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This study was designed to compare the responses of small-mammal communities to broadcast burning and herbicide-induced alteration of forest habitats. Study areas were located in south-coastal British Columbia, Canada, in the Coastal Western Hemlock (CWHdm) biogeoclimatic zone, and in west-central British Columbia in the Sub-boreal Spruce (SBSmk) and Engelmann Spruce–Subalpine Fir (ESSFmc) zones. Control–treatment comparisons for a herbicide application or a broadcast burning treatment were conducted at the coastal study area from 1982 to 1984. Replicate control–treatment comparisons between these two silvicultural practices were conducted at the interior study area within the period 1989 to 1992. Small-mammal populations were intensively livetrapped in all control and treatment blocks. Deer mouse (Peromyscusmaniculatus Wagner) populations showed short-term (1–2 months) declines after treatments at the coastal study area but appeared little affected by these habitat alterations at the interior area. Voles of the genus Microtus disappeared from burned blocks at the interior area but Microtusoregoni (Merriam) persisted on the burned block at the coastal area; however, the red-backed vole (Clethrionomysgapperi Vigors) did not. Chipmunks (Eutamiastownsendii Bachman and Eutamiasamoenus Allen) were little affected by either treatment. Neither treatment seemed to affect species diversity of these small-mammal communities. In terms of abundance of small-mammal populations, it is likely that broadcast burning is a more extreme means of habitat alteration than herbicide treatment.
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Gedan, Keryn Bromberg, Caitlin M. Crain, and Mark D. Bertness. "Small-mammal herbivore control of secondary succession in New England tidal marshes." Ecology 90, no. 2 (2009): 430–40. http://dx.doi.org/10.1890/08-0417.1.
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Asquith, Nigel M., S. Joseph Wright, and Maria J. Clauss. "DOES MAMMAL COMMUNITY COMPOSITION CONTROL RECRUITMENT IN NEOTROPICAL FORESTS? EVIDENCE FROM PANAMA." Ecology 78, no. 3 (1997): 941–46. http://dx.doi.org/10.1890/0012-9658(1997)078[0941:dmcccr]2.0.co;2.
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Cowan, Phil, Sam Brown, Guy Forrester, Lynn Booth, and Michelle Crowell. "Bird-repellent effects on bait efficacy for control of invasive mammal pests." Pest Management Science 71, no. 8 (2014): 1075–81. http://dx.doi.org/10.1002/ps.3887.
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Bengsen, Andrew J., David M. Forsyth, Stephen Harris, A. David M. Latham, Steven R. McLeod, and Anthony Pople. "A systematic review of ground-based shooting to control overabundant mammal populations." Wildlife Research 47, no. 3 (2020): 197. http://dx.doi.org/10.1071/wr19129.
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Abstract Context Ground-based shooting is widely used in management programs aiming to alleviate the impacts of invasive or overabundant wildlife populations. However, evaluations of individual shooting operations have shown variable results, and the effectiveness of ground-shooting as a population-management intervention has not been systematically examined. Aims Our review aimed to (1) assess the efficacy of shooting as a population management tool, and (2) identify commonalities among studies that will help managers identify situations where ground-shooting is most likely to be effective. Methods We systematically reviewed the literature to identify studies involving ground-shooting. From each study, we collated information about operational objectives, target taxa, geographic context, type of shooter used, effort, effectiveness, and use of additional control tools. Key results Most studies had no a priori quantifiable objectives. However, 60% of the 64 case studies produced a detectable reduction in population density and/or damage. The most common type of operation used unpaid or commercial harvest-oriented shooters to reduce herbivore density or damage. Only 30% of the operations that used volunteer shooters or recreational hunters achieved their objectives. Target taxa, geographic area or integration of shooting with other population-control methods had no detectable effect on the effectiveness of shooting operations. Common factors that hindered the effectiveness of shooting operations included immigration of target species from adjacent areas (n=13), decreasing effort from shooters as the target population declined (n=7) and selective harvesting (n=7). Conclusions Ground-based shooting can be an effective management tool for overabundant wildlife populations, but many shooting operations did not achieve a notable decrease in animal abundance or damage. The source of failure could often be attributed to an inability to remove a sufficient proportion of the population to cause a population decline. Implications Managers contemplating using ground-based shooting to reduce the impacts or density of wildlife populations should (1) carefully consider whether this is a suitable management tool to achieve the desired outcomes, (2) establish clear objectives that aim to meet defined outcomes and allow for continuous improvement, and (3) ensure that operations are sufficiently resourced to achieve and maintain those objectives.
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McCleery, Robert A., Adia Sovie, Robert N. Reed, Mark W. Cunningham, Margaret E. Hunter, and Kristen M. Hart. "Marsh rabbit mortalities tie pythons to the precipitous decline of mammals in the Everglades." Proceedings of the Royal Society B: Biological Sciences 282, no. 1805 (2015): 20150120. http://dx.doi.org/10.1098/rspb.2015.0120.
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To address the ongoing debate over the impact of invasive species on native terrestrial wildlife, we conducted a large-scale experiment to test the hypothesis that invasive Burmese pythons ( Python molurus bivittatus ) were a cause of the precipitous decline of mammals in Everglades National Park (ENP). Evidence linking pythons to mammal declines has been indirect and there are reasons to question whether pythons, or any predator, could have caused the precipitous declines seen across a range of mammalian functional groups. Experimentally manipulating marsh rabbits, we found that pythons accounted for 77% of rabbit mortalities within 11 months of their translocation to ENP and that python predation appeared to preclude the persistence of rabbit populations in ENP. On control sites, outside of the park, no rabbits were killed by pythons and 71% of attributable marsh rabbit mortalities were classified as mammal predations. Burmese pythons pose a serious threat to the faunal communities and ecological functioning of the Greater Everglades Ecosystem, which will probably spread as python populations expand their range.
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Gallois, Mélanie, Thierry Gidenne, Christian Tasca, et al. "Maternal Milk Contains Antimicrobial Factors That Protect Young Rabbits from Enteropathogenic Escherichia coli Infection." Clinical and Vaccine Immunology 14, no. 5 (2007): 585–92. http://dx.doi.org/10.1128/cvi.00468-06.
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ABSTRACT Enteropathogenic Escherichia coli (EPEC) colibacillosis represents a major cause of lethal diarrhea in young children in developing countries. EPEC strains also infect numerous mammal species and represent a major economical problem in rabbit industry. Protection against this pathogen is a challenging goal both in humans and in other mammal species. Despite a good knowledge of the pathogenicity mechanisms of EPEC, the intrinsic and environmental factors that control the expression of EPEC virulence in mammals remain unknown. For instance, the exacerbated sensitivity of young mammals to EPEC infection is still unexplained. Our goal was to investigate if age or other factors, like milk consumption, could be determinants that trigger the disease. We used rabbits as an animal model to study the role of milk in the sensitivity to an EPEC infection. Weaned and suckling rabbits were orally inoculated with EPEC strain E22 (O103:H2:K−) at 28 days of age, and the evolution of the disease was investigated in the two groups. In addition, in order to better characterize the interactions between milk and EPEC, we determined in vitro bacterial growth and the abilities of EPEC cells to adhere to epithelial cells in the presence of milk. Our results demonstrate a protective role of milk in vivo in association with in vitro antibacterial activity. These effects are independent of the presence of specific anti-EPEC antibodies.
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Goosem, M. "Effects of tropical rainforest roads on small mammals: fragmentation, edge effects and traffic disturbance." Wildlife Research 29, no. 3 (2002): 277. http://dx.doi.org/10.1071/wr01058.
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In north-eastern Queensland, impacts on small mammals of traffic disturbance were compared with those caused by physical presence of rainforest roads by trapping in the rainforest interior and adjacent to narrow, unsealed roads with traffic volumes of 264 ± 71 or 4.2 ± 1 vehicles per day. Of the three small mammal species that were most commonly trapped, the proportion and abundance of native Rattus sp. increased at higher-traffic and decreased at lower-traffic sites; the abundance of Melomys cervinipes was relatively constant at both traffic treatments and in the forest interior, and Uromys caudimaculatus decreased at higher-traffic treatments. Road crossings by the smaller rodents, Rattus sp. and M. cervinipes, were primarily influenced by the presence of the road, rather than increased levels of traffic, as crossings were significantly inhibited at both traffic treatments compared with the forest-interior control and there was no difference between traffic levels. Crossings by the larger, more mobile U. caudimaculatus were unaffected by road presence or traffic level. Therefore, increased traffic volume did not appear to affect small mammal movements or community structure. However, since higher traffic levels were not constant throughout the peak periods for activity of these nocturnal species, further investigations are required to determine whether constant nocturnal traffic disturbance may further restrict road crossings by small mammals and alter community structure adjacent to roads.
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Kuprewicz, Erin K. "Mammal Abundances and Seed Traits Control the Seed Dispersal and Predation Roles of Terrestrial Mammals in a Costa Rican Forest." Biotropica 45, no. 3 (2012): 333–42. http://dx.doi.org/10.1111/btp.12014.
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Sullivan, Thomas P. "Demographic responses of small mammal populations to a herbicide application in coastal coniferous forest: population density and resiliency." Canadian Journal of Zoology 68, no. 5 (1990): 874–83. http://dx.doi.org/10.1139/z90-127.
Full textAbstract:
This study was designed to assess the demographic responses of small mammal populations to herbicide-induced habitat alteration in a 7-year-old Douglas-fir plantation near Maple Ridge, British Columbia, Canada. Populations of the deer mouse (Peromyscus maniculatus), Oregon vole (Microtus oregoni), Townsend chipmunk (Eutamias townsendii), and shrews (Sorex spp.) were sampled in control and treatment habitats from April 1981 to September 1983 and from April to October 1985. Recolonization of removal areas by these species was also monitored in both habitats. There was little difference in abundance of deer mice, Oregon voles, and shrews between control and treatment study areas. Chipmunk populations appeared to decline temporarily on the treatment areas relative to controls. Recolonization by voles was not affected by habitat change, but for deer mice was lower on the treatment than control area. Both deer mouse and Oregon vole populations were at comparable densities on control and treatment areas in the second and fourth years after herbicide treatment. The proportion of breeding animals and average duration of life were similar in control and treatment populations of deer mice and voles. These small mammal species should be able to persist in areas of coastal coniferous forest that are treated with herbicide for conifer release.