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Journal articles on the topic 'Seed emergence'
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1
Farhoudi, R., and D. J. Lee. "Halopriming corn seeds improves seed emergence and carbohydrate metabolism under salinity stress." Seed Science and Technology 42, no. 3 (December 1, 2014): 461–65. http://dx.doi.org/10.15258/sst.2014.42.3.13.
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Borgmann, Claudia, Luciene Kazue Tokura, Bruna de Villa, Deonir Secco, Jair Antonio Cruz Siqueira, Pablo Chang, Alessandra Mayumi Tokura Alovisi, et al. "Seeds of Carthamus Tinctorius Submitted to Hydration: Morphological Aspects and Emergence." Journal of Agricultural Science 11, no. 16 (September 30, 2019): 38. http://dx.doi.org/10.5539/jas.v11n16p38.
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The present study aimed to evaluate the initial development of safflower genotypes (Carthamus tinctorius) after different periods of seed hydration. For the study two experiments were evaluated. At first, an experiment was performed with 0, 24, 48, 72, 168 and 360 hours of seed hydration, and in the second moment, another with 0, 12, 24, 36, 48 and 60 hours of hydration. The experimental design for the two experiments was completely randomized, with four replicates and six treatments. After 30 days of conduction of the experiments were analyzed the percentage of emergency, index of emergency speed, average time of emergency and average speed of emergency. The evaluated morphological characteristics were plant height, stem diameter, root length, fresh shoot and root mass and dry shoot mass. Hydration of seeds in considerable proportions positively influences the emergence and development of safflower plants. The highest performance in the emergence of plants, size, accumulation of fresh and dry shoot mass and fresh root mass was obtained by the IAPAR genotype, which stood out in relation to the other. The greatest emergencies were obtained with seeds with 36 hours of hydration, and the lowest emergence was found after 72 hours under hydration.
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Brown, Doug. "Estimating the composition of a forest seed bank: a comparison of the seed extraction and seedling emergence methods." Canadian Journal of Botany 70, no. 8 (August 1, 1992): 1603–12. http://dx.doi.org/10.1139/b92-202.
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The composition of a forest seed bank was estimated using two methods: (i) seed extraction, i.e., the physical separation of the seeds from the soil via flotation in a salt solution, and (ii) seedling emergence, i.e., the germination of seedlings from soil samples incubated under greenhouse conditions for 5 months. The extraction method predicted a density of 12 500 seeds∙m−2, while the emergence method detected 3800 émergents∙m−2. There was considerable disparity in species composition derived from the two methods. The extraction method identified 102 different taxa, with 22 species making up 99% of the seeds and 5.6 + 0.2 species per sample. In contrast, the emergence technique identified fewer species (60) but had more species per sample (7.6 + 0.2). Eleven species made up 99% of the emergents. Verbascum thapsus represented 34% of the seedlings in the emergence study but only 1 % of the extracted seeds. Members of the Polygonaceae represented 19% of the extracted seeds but less than 1 % of the seedling emergents. No tree or shrub species were found with the emergence method, although they represented 8% of the extracted seeds. There was a poor correlation between the estimates of species number, seed density, and diversity obtained from the two methods. The seed extraction method had considerably higher variability for these parameters. It is apparent from this study that the seedling emergence and seed extraction methodologies do not produce similar estimates of the seed bank composition. The differences are such that comparisons should not be drawn between studies using the different methods. Careful considerations should be given to both the objectives of the seed bank study and the relevant literature prior to the selection of an appropriate method. Key words: seed bank, method, composition, diversity, density, sample number.
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Spitzer, T., D. Spitzerová, P. Matušinský, and J. Kazda. "Possibility of using seed treatment to suppress seed-borne diseases in poppy." Plant Protection Science 50, No. 2 (May 6, 2014): 78–83. http://dx.doi.org/10.17221/76/2012-pps.
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In experiments using Petri dishes in the laboratory and pots in a greenhouse and climate chamber, we examined the influence of seed treatment on emergence of poppy. Four types of fungi (Alternaria spp., Dendryphion penicillatum, Fusarium spp., and Penicillium spp.) were detected on poppy seeds, with the highest infection rate being 72% for D. penicillatum. Surface disinfection decreased infection rate chiefly in D. penicillatum (by 32%) and in Alternaria spp. (by 16%). Seed treatment increased emergence by 9–10% in laboratory experiments but by only 0–6% in greenhouse experiments. Temperature plays an important role in emergence. In climate chamber experiments at a stable temperature of 12°C, the seed treatments increased emergence by 8–16%.
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Boligon, Alexandra Augusti, Alessandro Dal'Col Lúcio, Sidinei José Lopes, Alberto Cargnelutti Filho, and Danton Camacho Garcia. "Wheat seedling emergence estimated from seed analysis." Scientia Agricola 68, no. 3 (June 2011): 336–41. http://dx.doi.org/10.1590/s0103-90162011000300010.
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There are various vigor tests for the evaluation of seeds physiological quality, however, few studies correlate this tests with plants emergency. This study aimed at identifying wheat (Triticum aestivum L.) seed analysis variables that best predict seedling emergence. Wheat seeds (CEP 30 cultivar) were divided into two batches, one initially subjected to the accelerated ageing process and forming the low-quality batch, and the other, without application of the accelerated ageing process, to compose a high-quality batch. The following seed test variables were evaluated: (i) percentage of normal seedlings in the germination tests, (ii) initial germination counting, (iii) accelerated ageing, (iv) cold test without soil, (v) germination speed index, and (vi) emergence of seedlings in sand after seven and 15 days. The following seedling characteristics were evaluated: root and shoot lengths, total length, and dry mass of the root and shoot. The characteristics evaluated for the seedlings were subjected to path analysis and the seed tests variables to stepwise multiple regression analysis, taking seedling emergence at seven days as the response variable. Factor analysis was also carried out on all variables. Dry mass of the shoot and root length presented the best correlation with seedling emergence for the high-quality batch, but this behavior was not observed for any variable in the low-quality batch. Accelerated ageing was the best seedling emergence estimator for both batches of the used cultivar.
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Harrison, S. K., E. E. Regnier, J. T. Schmoll, and J. M. Harrison. "Seed Size and Burial Effects on Giant Ragweed (Ambrosia trifida) Emergence and Seed Demise." Weed Science 55, no. 1 (February 2007): 16–22. http://dx.doi.org/10.1614/ws-06-109.1.
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Giant ragweed is a competitive, allergenic weed that persists in agricultural fields and early successional sites. Field experiments were conducted to determine the effects of seed size and seed burial depth on giant ragweed emergence and seed demise. In a seedling emergence experiment, small (< 4.8 mm in diameter) and large (> 6.6 mm in diameter) seeds were buried 0, 5, 10, and 20 cm in fall 1997, and weed emergence was monitored over the next seven growing seasons. A generalized linear mixed model fit to the cumulative emergence data showed that maximum emergence for both seed sizes occurred at the 5-cm burial depth, where probability of emergence was 19% for small seeds and 49% for large seeds. Emergence probability at the 10-cm burial depth was 9% for small seeds and 30% for large seeds, and no seedlings emerged from the 20-cm burial depth. The model predicted that ≥ 98% of total cumulative emergence was completed after four growing seasons for large seeds buried 5 cm, five growing seasons for small seeds buried 5 cm and large seeds buried 10 cm, and seven growing seasons for small seeds buried 10 cm. Seed size and burial treatment effects on seed demise were tested in a second experiment using seed packets. Rates of seed demise were inversely proportional to burial depth, and the percentage of viable seeds remaining after 4 yr ranged from 0% on the soil surface to 19% at the 20-cm burial depth. Some seeds recovered from the 20-cm burial depth were viable after 9 yr of burial. These results, coupled with previous research, suggest that seed size polymorphism facilitates giant ragweed adaptation across habitats and that a combination of no-tillage cropping practices, habitat modification, and timely weed control measures can reduce its active seed bank in agricultural fields by 90% or more after 4 yr.
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Lindgren, Dale T., and Daniel M. Schaaf. "Influence of Seed Stratification and Seed Age on Emergence of Penstemon." HortScience 39, no. 6 (October 2004): 1385–86. http://dx.doi.org/10.21273/hortsci.39.6.1385.
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Studies were conducted to evaluate the effect of stratification and seed age on percent seedling emergence of Penstemon. Emergence differences occurred between the eight Penstemon selections, as well as between seed stratification treatments and seed age. Seed stratification significantly increased emergence. Emergence varied from 0% with 1-year-old seed of Penstemon digitalis with no stratification, to 72.8% emergence with 2-year-old seed of P. angustifolius with 10 weeks of stratification. Seedlings from 3- to 4-year-old seed generally emerged as well as or better than with 1- and 2-year-old seed. Percent emergence varied significantly with stratification, seed age, and species. Some emergence occurred with species from seed up to 10 years old.
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Finch-Savage, W. E., and W. G. Pill. "Improvement of carrot crop establishment by combining seed treatments with increased seed-bed moisture availability." Journal of Agricultural Science 115, no. 1 (August 1990): 75–81. http://dx.doi.org/10.1017/s0021859600073949.
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SUMMARYIn studies of carrots sown on three dates at Wellesbourne in 1986, mean time to seedling emergence and spread of times to seedling emergence of untreated and fluid-drilled seeds increased as seed-bed moisture at sowing decreased. These differences were not observed with irrigation before sowing.Osmotic priming increased the percentage of seeds with emerged radicles at the time of fluid drilling from 17% in the untreated control to 56%. Irrespective of seed-bed moisture, time to emergence was shorter from primed germinating seeds than from germinating seeds, both treatments giving earlier seedling emergence than untreated seeds. Seedling shoot weight was greater from treated than from untreated seeds.Seed-bed characteristics on unirrigated plots had no effect on seedling emergence when soil moisture was adequate but, where soil moisture was limiting, rolling the seed bed to increase capillarity resulted in 79% emergence compared with the 67% average from seed beds that were not rolled. Application of a soil conditioner to stabilize the seed-bed surface structure generally improved emergence when rain fell soon after sowing. The results suggested that a combination of seed-bed and seed treatments can significantly improve the predictability of crop establishment of carrots on different dates.
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Hakl, J., K. Mášková, J. Šantrůček, and M. Fér. "Seed emergence of lucerne varieties under different soil conditions." Czech Journal of Genetics and Plant Breeding 48, No. 2 (May 30, 2012): 93–97. http://dx.doi.org/10.17221/8/2012-cjgpb.
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The aim of this study was to examine in greenhouse experiments seed emergence of 14 lucerne varieties (mostly of the Czech origin) under different soil conditions (Luvisol, Chernozem and Cambisol). Soil conditions significantly influenced seed emergence in seven varieties. Their seed emergence was lower in Cambisol (72%) than in Chernozem (80%) and Luvisol (91%). In other varieties the soil effect was not significant. The effect of variety could not be separated from the effect of seed lot in our experiment. However, germination, occurrence of hard seeds, germinative energy and thousand-seed weight were not significantly different between the groups of varieties that could be classified as sensitive and tolerant to the examined soil conditions. The obtained results indicated that the selection of suitable lucerne variety or seed lot could be a tool for improving emergence in deteriorated soil conditions.
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Barut, Z. B., and M. I. Çağırgan. "Effect of seed coating on the accuracy of single-seed sowing of sesame under field conditions." Australian Journal of Experimental Agriculture 46, no. 1 (2006): 71. http://dx.doi.org/10.1071/ea04201.
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Sesame seed treatments consisted of 2 different coatings and uncoated seeds. These were tested to determine their effect on accuracy of plant spacing after emergence in single-seed sowing under different field conditions. Seedbed treatments were composed of traditional tillage without crop residue and conservative tillage with wheat stubble. To quantify plant spacing accuracy and emergence uniformity, spacing between plants within a row and plant emergence per day were measured. The measurements were used to calculate the quality of feed index, multiples index, skip index, precision, emergence rate index, mean emergence date and the percentage of emergence. It was concluded that seed treatments had a significant effect on multiples index and skip index of horizontal distribution pattern and emergence rate index, mean emergence date and the emergence percentage. The coating acted negatively on seed germination and led to missing plants and less plant spacing uniformity in the row. The shortest emergence date and maximum percentage of emergence and quality of feed index were obtained with uncoated sesame seeds. The parameters, except emergence rate index, were not affected statistically by tillage treatments. It was found that all seeds emerged in less time on conservation tillage plots with stubble.
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Suñé, A. S., D. B. Rodrigues, A. S. Almeida, C. A. Nunes, L. H. Konzen, E. Gewehr, G. A. Silveira, B. B. Reis, H. L. Chagas, and L. V. M. Tunes. "New Vigor Methodology in Pearl Millet Seeds." Journal of Agricultural Science 11, no. 4 (March 15, 2019): 205. http://dx.doi.org/10.5539/jas.v11n4p205.
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The use of high quality seeds is of utmost importance and is intimately related to seed vigor. The objective of this study was to stablish a novel methodology for evaluating the vigor of pearl millet seeds. The experiment was performed at the Federal University of Pelotas, using 5 seed lots of pearl millet cv. BRS1501. The research was carried out in two stages: first, seed lots were characterized (physiological quality tests); second, the initial emergence and development of pearl millet seedlings was evaluated, testing four different substrates and five sowing depths in the emergence test. The experimental set up consisted of a completely randomized design with four replicates. Means were compared by the Scott-Knott test at the 5% probability level. The substrates sand and carbonized rice husk, at 1.0 cm depth, satisfactorily stratified seed lots. These methodologies correlated with the speed of emergency index and seedling emergency. Thus, the study identified an innovative method for testing vigor in pearl millet seeds.
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Leon, Ramon G., and Micheal D. K. Owen. "Artificial and natural seed banks differ in seedling emergence patterns." Weed Science 52, no. 4 (August 2004): 531–37. http://dx.doi.org/10.1614/ws-03-048r2.
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Artificial weed seed banks are practical for studying seed bank depletion and weed seedling emergence because the number, depth, and species composition of seed banks can be managed. However, no studies have determined whether artificial seed banks are representative of natural seed banks. We compared the emergence of velvetleaf, giant foxtail, and common waterhemp in a natural seed bank, an artificial seed bank with stratified seeds, and an artificial seed bank with nonstratified seeds. Velvetleaf seedling emergence was higher in the nonstratified seed bank in 2001, but no differences were observed in 2002. The number of viable velvetleaf seeds at the end of the experiment was lower in the natural seed bank than in the artificial seed banks in 2002. Velvetleaf emergence occurred earlier in the natural seed bank than in the artificial seed banks. Giant foxtail emergence was higher in the artificial seed banks (58 to 82%) than in the natural seed bank (5 to 23%). Common waterhemp emergence ranged from 7 to 65% in the artificial seed banks and from 1 to 5% in the natural seed bank. In general, the distribution of emergence with time differed in the natural seed bank compared with the artificial seed banks. These differences were attributed to differences in soil temperature and soil bulk density between the natural and artificial seed banks. Artificial seed banks showed lower soil bulk density and greater temperature fluctuation than the natural seed bank. However, there was no consistent relationship between growing degree days and emergence timing in the three treatments for any of the species studied.
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Zhang, Chunyang, Jiefang Wu, Danwen Fu, Limin Wang, Jiezhen Chen, Changhe Cai, and Liangxi Ou. "Soaking, Temperature, and Seed Placement Affect Seed Germination and Seedling Emergence of Litchi chinensis." HortScience 50, no. 4 (April 2015): 628–32. http://dx.doi.org/10.21273/hortsci.50.4.628.
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To find efficient ways to increase the percentage of seed germination and seedling emergence in litchi (Litchi chinensis Sonn.), we investigated the effects of soaking and high temperature on seed germination, as well as the influence of seed placement (orientation and burial depth) on seedling emergence. Seeds of most tested litchi cultivars soaked in water had a better germination performance than seeds without soaking. More than 90% germination of tested litchi seeds was obtained when the soaking times were 26–54 hours. During presprouting, short-term high temperatures (37–44 °C) exerted a negative effect on seed germination rate, but did not influence the germination percentage. In addition, high temperatures (>42 °C) compromised the further growth of sprouted litchi seeds. Burial depth and seed orientation both significantly influenced the seedling recruitment. There was a reduction in seedling emergence with an increase in burial depth. Seeds at the depth of 2 cm showed the best seedling emergence with an average percentage of 90%. Litchi seedling emergence was greatest and most rapid when seeds were sown 2 cm deep, positioned flat, on their sides, and with the radicle oriented downward.
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Demir, Ibrahim, Nihal Erturk, and Zeynep Gokdas. "Seed vigour evaluation in petunia seed lots to predict seedling emergence and longevity." Seed Science and Technology 48, no. 3 (December 31, 2020): 391–400. http://dx.doi.org/10.15258/sst.2020.48.3.07.
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This study examined the potential of different vigour tests to reveal differences in performance of nine hybrid petunia seed lots. Saturated salt accelerated ageing test (SSAA) and 48-hour radicle emergence (RE48h) tests were able to predict seedling emergence and longevity potential. The results of accelerated ageing (AA) (at 41/43°C, 48/72 hours, 100% RH), saturated salt accelerated ageing (SSAA) (at 41/43/45°C, 72 hours, 75% RH), mean germination time (MGT), 48-hour radicle emergence (RE48h) and electrical conductivity (EC) tests were compared with seedling emergence in modules and longevity (at 5°C for 24 months and 25°C for 12 months). Initial standard germination (SG) percentages were above 83% in the lots. Seedling emergence ranged between 18 and 89%, germination after storage was between 16 and 88% at 5°C, and 13 and 96% at 25°C. The SSAA test at 43°C and 45°C for 72 hours was correlated with both seedling emergence and longevity. RE48h was correlated with emergence and germination after storage at 5°C for 24 months; MGT and SG was correlated with seedling emergence. Neither AA nor the EC test was correlated with emergence and longevity. Thus vigour, expressed as both emergence and storage potential, was successfully predicted by the SSAA test and RE48h.
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Reader, R. J. "Control of seedling emergence by ground cover: a potential mechanism involving seed predation." Canadian Journal of Botany 69, no. 9 (September 1, 1991): 2084–87. http://dx.doi.org/10.1139/b91-260.
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The presence of ground cover (i.e., plant biomass and litter) could restrict seedling emergence by providing a habitat for seed predators. To test this hypothesis, a field experiment was conducted with three old-field forbs (Daucus carota, Centaurea nigra, Taraxacum officinale). Ground cover was either removed or left in place and sown seeds of the three forbs were either protected from predators or left unprotected. Where seeds were protected from predators, seedling emergence did not improve when ground cover was removed. Where seeds were not protected from seed predators, seedling emergence did improve significantly for all three species when ground cover was removed. Apparently, seed predators removed more unprotected seeds where ground cover was present than absent, thereby reducing seedling emergence. These results are consistent with the hypothesis that ground cover could restrict seedling emergence by providing a habitat for seed predators. Key words: old field, seedling emergence, seed predation.
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Mavi, K., F. Mavi, I. Demir, and S. Matthews. "Electrical conductivity of seed soak water predicts seedling emergence and seed storage potential in commercial seed lots of radish." Seed Science and Technology 42, no. 1 (April 1, 2014): 76–86. http://dx.doi.org/10.15258/sst.2014.42.1.08.
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Mavi, K. "The relationship between seed coat color and seed quality in watermelon Crimson sweet." Horticultural Science 37, No. 2 (May 6, 2010): 62–69. http://dx.doi.org/10.17221/53/2009-hortsci.
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This work was carried out to determine the relationship between seed coat color and seed quality in Crimson sweet watermelon. Seed lots (1, 2, 3, and 4) were prepared taking into consideration seed coat colors in fresh seeds with naked eye. The color parameters of these prepared seed lots were determined using Minolta colorimeter. To determine quality differences between the seed lots, standard germination test, seed weight, water uptake ratio, mean germination time, emergence percentage, mean emergence time, seedling fresh weight, seedling dry weight and electrical conductivity values were determined. The seed weight (57.22 mg), germination percentage (86.5%), emergence percentage (77.5% total and 76.5% normal), seedling fresh weight (978.7 mg), and dry weight (64.7 mg) of the brown seed lot (Lot 1) were markedly higher than lots having lighter seed coat (2, 3, and 4). On the other hand the mean emergence time (7.7 days) and electrical conductivity value (128.8 μS/cm g in 24 h) of the brown seed lot (Lot 1) were lower than lots having lighter seed coat (2, 3, and 4). The obtained data indicated that seed quality differences can be determined according to the seed coat color of Crimson sweet seeds. It was found that seed lot 1 had higher seed vigor and viability than seed lots 2, 3, and 4. Color parameters b*, C*, L*, and H°, determined by Minolta colorimeter, showed significant correlation with seeds quality parameters.
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Ibrahim, Abeer El-Ward. "Seed Treatments to Improve Field Emergence of Soybean Seed." Journal of Plant Production 8, no. 5 (May 1, 2017): 641–47. http://dx.doi.org/10.21608/jpp.2017.40504.
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Blubaugh, Carmen K., and Ian Kaplan. "Invertebrate Seed Predators Reduce Weed Emergence Following Seed Rain." Weed Science 64, no. 1 (March 2016): 80–86. http://dx.doi.org/10.1614/ws-d-15-00111.1.
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Weeds are selected to produce overwhelming propagule pressure, and while vertebrate and invertebrate seed predators destroy a large percentage of seeds, their ecosystem services may not be sufficient to overcome germination site limitations. Cover crops are suggested to facilitate seed predation, but it is difficult to disentangle reductions in weed recruitment attributable to granivores from those due to plant competition. Using common lambsquarters as a focal weed species, we used experimental seed subsidies and differential seed predator exclusion to evaluate the utility of vertebrate and invertebrate seed predators in fallow, killed cover crop, and living mulch systems. Over two growing seasons, we found that seed predators were responsible for a 38% reduction in seedling emergence and 81% reduction in weed biomass in fallow plots following simulated seed rain, suggesting that granivory indeed overcomes safe-site limitation and suppresses weeds. However, the common lambsquarters densities in ambient seedbanks across fallow and cover crop treatments were high, and seed predators did not impact their abundance. Across the study, we found either neutral or negative effects of vertebrate seed predators on seed predation, suggesting that invertebrate seed predators contribute most to common lamnsquarters regulation in our system. These results imply that weed seed biocontrol by invertebrates can reduce propagule pressure initially following senescence, but other tools must be leveraged for long-term seedbank management.
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White, Sharon S., Karen A. Renner, Fabian D. Menalled, and Douglas A. Landis. "Feeding Preferences of Weed Seed Predators and Effect on Weed Emergence." Weed Science 55, no. 6 (December 2007): 606–12. http://dx.doi.org/10.1614/ws-06-162.1.
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We determined feeding preferences of invertebrate seed predators and the effect of seed predation on weed emergence. Feeding choice studies were completed with three species of common ground beetles: (Amara aeneaDeGeer,Anisodactylus sanctaecrucisF., andHarpalus pensylvanicusDeGeer) (Coleoptera: Carabidae) and the northern field cricket (Gryllus pennsylvanicusDeGeer) (Orthoptera: Gryllidae).Anisodactylus sanctaecrucis,H. pensylvanicus, and the female and maleG. pennsylvanicusconsumed more redroot pigweed seeds compared with giant foxtail seeds;A. aeneaseed consumption did not differ between these two weed species. All invertebrates consumed fewer velvetleaf seeds compared with redroot pigweed and giant foxtail seeds; however, when seed biomass was compared,A. aeneaconsumed similar biomass of velvetleaf, giant foxtail, and redroot pigweed, whereasA. sanctaecrucisandH. pensylvanicusconsumed greater biomass of velvetleaf compared with giant foxtail seed. Seed burial depths of 0.5 or 1.0 cm reduced redroot pigweed and giant foxtail seed consumption byA. aeneaandA. sanctaecrucisbut not by the larger carabid beetle,H. pensylvanicus. In a greenhouse study,A. sanctaecrucisdecreased total weed emergence by 15%, andG. pennsylvanicusfemales and males decreased weed emergence by 16 and 5%, respectively. Emergence of redroot pigweed, but not velvetleaf or giant foxtail, decreased whenA. sanctaecrucisand the maleG. pennsylvanicuswere present, whereas the emergence of all three weed species decreased in the presence of the femaleG. pennsylvanicus. In field experiments, vertebrate access to velvetleaf seeds reduced emergence from 4 to 9% across field sites; invertebrate access reduced emergence 4 to 6%. Vertebrate access to giant foxtail seeds reduced emergence 3 to 7%, and invertebrate access reduced emergence 4 to 13%. These results suggest that predation of weed seeds by both vertebrates and invertebrates may reduce weed emergence and influence the weed community.
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Pareja, Mario R., and David W. Staniforth. "Seed-Soil Microsite Characteristics in Relation to Weed Seed Germination." Weed Science 33, no. 2 (March 1985): 190–95. http://dx.doi.org/10.1017/s0043174500082072.
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Growth chamber and laboratory experiments evaluated the effects of seed-soil microsite characteristics on seed germination. When corn (Zea maysL. ‘Pioneer 3541’), soybean [Glycine max(L.) Merr. ‘Corsoy 79’], velvetleaf (Abutilon theophrastiMedic. ♯ ABUTH), and giant foxtail (Setaria faberiHerrm. ♯ SETFA) were seeded among soil aggregates 2.50 to 1.25 cm in diameter in the growth chamber, there was decreased seedling emergence with decreasing frequency of irrigation. These same species seeded inside artificial soil aggregates showed increased seedling emergence with decreasing frequency of irrigation. The germination of corn and soybean seed inside 0.4-g, fully moist soil aggregates incubated in the laboratory under high relative humidity conditions was significantly decreased relative to seed incubated in the absence of soil. Velvetleaf and giant foxtail germination was significantly reduced by 0.1-g soil aggregates. Rice (Oryza sativaL.) had 68% emergence from 1.0-g, fully moist soil aggregates, whereas larger seeded corn and soybean had only 20 and 10% emergence, respectively. Germination inhibition of giant foxtail seed by fully moist soil was partially reversed by incubating seed-containing aggregates in an atmosphere of 75% oxygen.
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Cheam, AH. "Emergence and survival of buried doublegee (Emex australis Steinh.) seeds." Australian Journal of Experimental Agriculture 27, no. 1 (1987): 101. http://dx.doi.org/10.1071/ea9870101.
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The emergence and survival of seed of doublegee (Emex australis Steinh.) buried at various depths were studied over 4 years at 3 climatically contrasting sites in Western Australia. We concluded that there is an optimal burial depth for seedling emergence and seed survival. Seeds placed at 1 cm gave maximum emergence but no seedling emerged from seeds placed at 15 cm or deeper. Emergence occurred mainly during the first autumn from seed less than 1 year old. Over the following 3 years, emergence declined progressively. The waves of emergence reflected the seasonal rainfall pattern, although emergence did not occur after every rainfall. There was no direct relationship between emergence and loss of seed viability. At the coolest site with higher rainfall the retention of viable seeds increased with increasing depth in the soil, whereas at warmer sites with lower rainfall there was an inverse relationship between viability and burial depth. The viable seeds exhumed after 4 years of burial were in different states of dormancy but induced or innately dormant seeds predominated at the cooler higher rainfall site. These types of dormancies and the various environmental factors will determine the number of viable seeds germinating in any given season. It is shown that even when the influx of new seed was stopped for 4 consecutive years, it was still not possible to achieve complete reduction in numbers of doublegee seeds.
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Hwang, S. F., B. D. Gossen, K. F. Chang, G. D. Turnbull, and R. J. Howard. "Effect of seed damage and metalaxyl seed treatment on pythium seedling blight and seed yield of field pea." Canadian Journal of Plant Science 81, no. 3 (July 1, 2001): 509–17. http://dx.doi.org/10.4141/p00-155.
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When cool, wet conditions persist after planting, Pythium spp. can be an important constraint to stand establishment in field pea. Laboratory studies and field trials were conducted over 3 yr to assess the impact and evaluate the interactions of Pythium spp., metalaxyl seed treatment and damage to seed on seedling establishment, root rot severity and seed yield of field pea. Seedling emergence, seedling size, and seed yield were reduced by inoculation with Pythium spp. and by mechanical damage to the seed. Fungicide seed treatment reduced the impact of seed damage, but did not always restore seedling emergence and seed yield to the same level as from undamaged seed. Undamaged seed treated with metalaxyl was not affected by inoculation with Pythium spp. Differences among cultivars, although often significant, were small relative to the effect of seed injury. Laboratory studies showed a negative linear relationship between inoculum concentration and emergence from untreated seed. They also showed that Pythium spp. had a similar impact on seedling emergence in cool (20/10°C day/night) and cold (12/6°C) soils. This study showed that planting fungicide-treated, high-quality field seed was an effective means of maximizing emergence and stand establishment for commercial field pea production. Key words: Pisum sativum, seed vigour, metalaxyl, Pythium, seed damage
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Afzal, I., K. Mukhtar, M. Qasim, S. M. A. Basra, M. Shahid, and Z. Haq. "Magnetic stimulation of marigold seed." International Agrophysics 26, no. 4 (October 29, 2012): 335–39. http://dx.doi.org/10.2478/v10247-012-0047-1.
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Abstract The effects of magnetic field treatments of French marigold seeds on germination, early seedling growth and biochemical changes of seedlings were studied under controlled conditions. For this purpose, seeds were exposed to five different magnetic seed treatments for 3 min each. Most of seed treatments resulted in improved germination speed and spread, root and shoot length, seed soluble sugars and a-amylase activity. Magnetic seed treatment with 100 mT maximally improved germination, seedling vigour and starch metabolism as compared to control and other seed treatments. In emergence experiment, higher emergence percentage (4-fold), emergence index (5-fold) and vigorous seedling growth were obtained in seeds treated with 100 mT. Overall, the enhancement of marigold seeds by magnetic seed treatment with 100 mT could be related to enhanced starch metabolism. The results suggest that magnetic field treatments of French marigold seeds have the potential to enhance germination, early growth and biochemical parameters of seedlings.
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Wise, Kiersten A., Robert A. Henson, and Carl A. Bradley. "Fungicide Seed Treatment Effects on Seed-borne Ascochyta rabiei in Chickpea." HortTechnology 19, no. 3 (January 2009): 533–37. http://dx.doi.org/10.21273/hortsci.19.3.533.
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A chickpea (Cicer arietinum) seedlot, naturally infected with Ascochyta rabiei, was sorted into two lots of asymptomatic and symptomatic, based on visual symptoms observed. A laboratory assay showed 16% A. rabiei infection in asymptomatic seeds, while symptomatic seeds had 73% infection. Asymptomatic and symptomatic seeds were treated with different fungicides to determine their effects on seedling emergence from soil and on ascochyta blight development in seedlings grown in a growth chamber and in the field at Fargo and Carrington, ND, in 2006. The emergence of seedlings grown from asymptomatic seeds was significantly (P ≤ 0.05) greater than the emergence of seedlings grown from symptomatic seeds in the growth chamber and field trials. Fungicides were able to increase plant emergence from symptomatic seeds when compared with a control in the growth chamber trials. In the growth chamber trials, the treatment with a mixture of metalaxyl + thiabendazole + ipconazole + azoxystrobin was the most effective at slowing the development of disease on plants from symptomatic seeds. This research reinforces the importance of seed health testing and fungicide seed treatments as part of an ascochyta blight management program.
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Boyd, Nathan, and Rene Van Acker. "Seed and microsite limitations to emergence of four annual weed species." Weed Science 52, no. 4 (August 2004): 571–77. http://dx.doi.org/10.1614/ws-03-118r.
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The emergence of annual species depends on the number of seeds present and the biotic and abiotic conditions directly surrounding those seeds (the microsite). A field experiment was conducted to study the relative importance of seed presence vs. microsite conditions in determining the emergence of four annual species. Green foxtail, wild mustard, wild oat, and canola were seeded at 200, 400, and 1,200 seeds m−2in separate plots in a coarse, loamy, mixed Typic Haplocryoll and a fine, mixed Typic Haplocryoll soil. Five microsite modification treatments (control, irrigation, soil compaction, soil compaction plus irrigation, and no crop) were applied to all weed seed density treatments for each weed species. All plots were seeded to spring wheat. Irrigation or soil compaction increased percent emergence of wild oat. Green foxtail emergence tended to increase with soil compaction in 2001 but not in 2002. Wild mustard and canola emergence were largely unaffected by microsite modification treatments. Weed emergence increased with increasing seed density for all species, but the proportion of the total number of seeds emerging decreased with increasing seed density for all species. We suggest that the emergence of the four weed species in this experiment was both seed and microsite limited. Increasing the number of seeds in the soil increased the probability of seeds landing within an appropriate microsite. For these four species, therefore, weed spread and weed patch formation may be determined both by seed production and dispersal and by variability in soil microsite conditions. Results suggest that weed management practices should limit seed dispersal of all species and discourage weed emergence of hard-to-control species during critical establishment periods.
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Loddo, D., V. P. Vasileiadis, R. Masin, M. C. Zuin, and G. Zanin. "Inhibiting effect of shallow seed burial on grass weed emergence." Plant Protection Science 52, No. 1 (June 2, 2016): 64–69. http://dx.doi.org/10.17221/78/2015-pps.
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Yamawo, Akira, and Hiromi Mukai. "Seeds integrate biological information about conspecific and allospecific neighbours." Proceedings of the Royal Society B: Biological Sciences 284, no. 1857 (June 21, 2017): 20170800. http://dx.doi.org/10.1098/rspb.2017.0800.
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Numerous organisms integrate information from multiple sources and express adaptive behaviours, but how they do so at different developmental stages remains to be identified. Seeds, which are the embryonic stage of plants, need to make decisions about the timing of emergence in response to environmental cues related to survival. We investigated the timing of emergence of Plantago asiatica (Plantaginaceae) seed while manipulating the presence of Trifolium repens seed and the relatedness of neighbouring P. asiatica seed. The relatedness of neighbouring P. asiatica seed and the presence of seeds of T. repens did not on their own influence the timing of P. asiatica emergence. However, when encountering a T. repens seed, a P. asiatica seed emerged faster in the presence of a sibling seed than in the presence of a non-sibling seed. Water extracts of seeds gave the same result. We show that P. asiatica seeds integrate information about the relatedness of neighbouring P. asiatica seeds and the presence of seeds of a different species via water-soluble chemicals and adjust their emergence behaviour in response. These findings suggest the presence of kin-dependent interspecific interactions.
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Beata, Michalska-Klimczak, Wyszyński Zdzisław, Pačuta Vladimír, Rašovský Marek, and Różańska Agnieszka. "The effect of seed priming on field emergence and root yield of sugar beet." Plant, Soil and Environment 64, No. 5 (May 14, 2018): 227–32. http://dx.doi.org/10.17221/136/2018-pse.
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The effect of sugar beet seed (primed and non-primed) on field emergence and root yield of sugar beet was examined. The experiment was realized in the years 2012–2014 at an Experiment Field Station of Warsaw University of Life Sciences – SGGW Faculty of Agriculture and Biology in Skierniewice (51°97'N, 20°19'E) in Poland. The experimental factor was diversified seed material of the same cultivar of sugar beet – typical seeds, traditionally prepared for sowing (non-primed seeds) and seeds before sowing, subjected to the process of priming. On average for the three years of the study, no significant effect of seed priming on the field emergence was found. On the other hand, the sugar beet emergence on plots with primed seeds was faster, more even and uniform. Seed priming, on average for the three years of the study, significantly increased the mean root mass during harvest. In contrast, priming the seeds did not cause an increase in the final plant density. No significant effect of seed priming on root yield was found, both on average for the studied period and in particular years of the study.
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Abdullah, W. D., A. A. Powell, and S. Matthews. "Association of differences in seed vigour in long bean (Vigna sesquipedalis) with testa colour and imbibition damage." Journal of Agricultural Science 116, no. 2 (April 1991): 259–64. http://dx.doi.org/10.1017/s0021859600077662.
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SUMMARYField emergence of 11 seed lots from six cultivars of long bean, all having laboratory germination of > 80%, ranged from 0 to 83%, indicating differences in seed vigour. Vigour differences occurred within and between cultivars, seed lots from cultivars with white or partly white testas having particularly poor emergence (0–21%) compared with those with brown or black testas (41–83% field emergence). The significant ranked correlations between field emergence and (i) solute leakage, measured by the electrical conductivity of seed soak water (r = –0·864), (ii) the percentage of cotyledons made up of completely living tissue, revealed by vital staining (r = 0·895), and (iii) the proportion of hard seeds (r = 0·916) indicated that lots with low vigour and potentially poor field emergence could be identified before sowing. Seed lots having low vigour imbibed water rapidly; the improved vital staining when seeds imbibed slowly indicated that damage occurred during imbibition and was a cause of low seed vigour. Rapid water uptake by low-vigour seed lots was partly explained by the incidence of seeds with cracked testas, but other factors could not be eliminated. The significance of differences in water uptake between cultivars differing in testa colour is discussed in relation to breeding for improved emergence.
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Dehgan, Bijan, Jeffrey G. Norcini, Steven M. Kabat, and Hector E. Pérez. "Effect of Seed Scarification and Gibberellic Acid Treatment on Seedling Emergence of Sky-Blue Lupine (Lupinus diffusus)." Journal of Environmental Horticulture 21, no. 2 (June 1, 2003): 64–67. http://dx.doi.org/10.24266/0738-2898-21.2.64.
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Abstract The efficacy of various scarification treatments and gibberellic acid (GA3) treatment on seedling emergence of Lupinus diffusus Nutt. (sky-blue lupine) was evaluated. Seed scarified in concentrated sulfuric acid for 90 min followed by immersion in water for 24 hr resulted in the best emergence of viable seed (≈ 41%). Mechanical scarification with sandpaper for up to 30 min did not improve seedling emergence. Immersing seed in 90C (194F) water which was then allowed to cool for 24 hr apparently killed or severely injured the embryos as no seedlings emerged from seeds treated with hot water. There was only 5% seedling emergence for nonscarified seed that were soaked in water at room temperature for 24 hr. Emergence was not improved by soaking scarified seed in 1000 mg/liter (ppm) GA3 for 24 hr prior to sowing the seeds.
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Parera, Carlos A., and Daniel J. Cantliffe. "Presowing Seed Treatments to Enhance Supersweet Sweet Corn Seed and Seedling Quality." HortScience 29, no. 4 (April 1994): 277–78. http://dx.doi.org/10.21273/hortsci.29.4.277.
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Poor emergence and low seedling vigor are characteristics of many supersweet sweet corn (Zea mays L.) cultivars carrying the shrunken-2 (sh2) gene. Four sh2 sweet corn cultivar seeds [`How Sweet It Is' (HSII), `Crisp N' Sweet 711' (CNS-711), `Sweet Belle' (SB), and `Dazzle' (DZ)] were solid-matrix-primed (SMP), SMP with sodium hypochlorite (SMPcl), treated with a fungicide combination (F) (Imazalil + Captan + Apron + Thiram), or primed with the aforementioned fungicides (SMPf). The seed treatments were tested in the laboratory and the field. Seed imbibition and leachate electrical conductivity were lower in SMP seeds than in nonprimed seeds. In the field, emergence percentage and rate of CNS-711 and SB (high-vigor seeds) were not improved by the seed treatments compared to the nontreated seeds. Emergence percentage and rate of HSII and DZ (considered low-vigor seeds) were improved as a result of SMPcl, SMPf, or F treatments compared to nonprimed seeds. Compared to the F treatment, the SMPcl presowing treatment increased DZ seedling emergence rate and percentage. The combined SMP and seed disinfection via NaOCl seems to be a promising fungicide seed-treatment substitute that improves the stand establishment and seedling vigor of sh2 sweet corn cultivars. Chemical names used: 1-[2-(2,4-dichlorophenyl)-2-(2-propenyloxy)ethyl]-1 H imidazole (Imazalil); N-[(trichloromethyl)thio]-4-cyclohexene-1,2-dicarboximide(Captan); N- (2,6-dimethylphenyl)- N -(methoxyacetyl)alanine methyl ester (Apron); tetramethylthiuram disulfide (Thiram).
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Powelson, Mary L., and Debra A. Inglis. "Foliar Fungicides as Protective Seed Piece Treatments for Management of Late Blight of Potatoes." Plant Disease 83, no. 3 (March 1999): 265–68. http://dx.doi.org/10.1094/pdis.1999.83.3.265.
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Fungicides receiving Section 18 emergency exemptions for management of the foliar phase of late blight of potato were evaluated as protective treatments for control of tuberborne inoculum of Phytophthora infestans in greenhouse and field studies. Three Section 18 products, Acrobat MZ (dimethomorph + mancozeb), Curzate M-8 (cymoxanil + mancozeb), and Tattoo C (propamocarb hydrochloride + chlorothalonil), when applied to the seed piece prior to inoculation with P. infestans, significantly (P ≤ 0.05) increased sprout emergence, compared with the inoculated water control. Of the three Section 18 products, Curzate M-8 was frequently the most effective. The increase in plant emergence with the protective seed piece treatment was seen with cultivars that differ in susceptibility to late blight, two genotypes (US-8 and US-11) of P. infestans, zoospore and sporangial inocula, and at different inoculation sites on the seed piece. In greenhouse studies, percent emergence with the protective seed piece treatments averaged 74% for cv. White Rose and 44% for cv. Shepody, compared with 9 and 8% for the inoculated water control of the respective cultivars. In field studies, when inoculum was placed either adjacent to or 4 cm away from the sprout, plant emergence of the inoculated water control was 12 and 36%, respectively. Application of the fungicides to the seed piece prior to inoculation increased emergence by an average of 700 and 212% for the respective inoculation sites. There was no evidence for translocation of the fungicides to the emerging foliage in concentrations high enough to prevent foliar infection from airborne inoculum of P. infestans. Control of tuberborne inoculum of P. infestans with appropriate seed piece treatments will result in an increase in plant emergence and improved crop uniformity.
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CHEVRIER, G. E., and K. A. STEWART. "EFFECTS OF SEEDING TREATMENT AND SOIL MOISTURE CONTENT ON THE EMERGENCE OF LETTUCE." Canadian Journal of Plant Science 65, no. 1 (January 1, 1985): 193–99. http://dx.doi.org/10.4141/cjps85-026.
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Lettuce seeds (Lactuca sativa L. ’Boston Dark Green’) were sown by fluid drill and as dry seed into soils at 25%, 50%, 75% and 100% field capacity (FC). Fluid drilling reduced the time to initial emergence and 50% emergence at soil moisture levels between 50% and 100% FC. At 25% FC, neither seeding method performed well with fluid drilled seed being entrapped inside the carrier gel after it had dehydrated. After 2 wk, no significant difference in final percent emergence was noted between seeding treatments at any soil moisture level. In a second experiment, fluid drilled lettuce seeds emerged earlier and reached 50% emergence sooner than dry seed, germinated seed sown without gel and dry-seed in gel at 40%, 50% and 75% FC. Gel-seeded treatments were not significantly affected by soil moisture whereas the emergence of seeding treatments without gel application was markedly improved as soil moisture content increased. After 2 wk, the percent emergence of dry seeded lettuce at 40% FC was significantly lower than the other seeding treatments. No differences were noted among treatments at 50% FC whereas at 75% FC, the emergence of dry seed in gel was significantly reduced.Key words: Lettuce, fluid drilling
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Sun, Xi-Qing, Yi-Gang Song, Bin-Jie Ge, Xi-Ling Dai, and Gregor Kozlowski. "Intermediate Epicotyl Physiological Dormancy in the Recalcitrant Seed of Quercus chungii F.P.Metcalf with the Elongated Cotyledonary Petiole." Forests 12, no. 3 (February 25, 2021): 263. http://dx.doi.org/10.3390/f12030263.
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Control of seed germination and dormancy is important in seed plant adaptation and evolution. When studying seed dormancy of Quercus species, we observed a substantially delayed shoot emergence following a fast root emergence in Quercus chungii F.P.Metcalf. Since epicotyl physiological dormancy (PD) has not been reported in Quercus section Cyclobalanopsis, we examined seed morphology and germination in Q. chungii and aimed to document epicotyl PD in the seeds. The embryo was fully developed in fresh ripe seeds. The elongating cotyledonary petiole pushed the embryo axis out of the seed during germination, which differed from observations in other Quercus species. Shoots emerged from seeds with developing roots after 3 months of warm stratification (35/25 °C), reaching the highest percentage of shoot emergence in seeds after 5 months. Seeds were recalcitrant and displayed a yet unreported epicotyl PD type, for which we propose the formula Cnd(root) ‒ Cp’’ 2b(shoot). Early emergence and development of the root system in Q. chungii seeds with epicotyl PD appears to be a mechanism to maintain a constant water supply to the shoot during plumule development and emergence. Our documentation of seed germination will provide guidance for the conservation and restoration of this species from seeds.
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Finch-Savage, W. E., and C. I. McQuistan. "Performance of carrot seeds possessing different germination rates within a seed lot." Journal of Agricultural Science 110, no. 1 (February 1988): 93–99. http://dx.doi.org/10.1017/s0021859600079739.
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SummaryThe relationship between germination rate within a carrot seed lot and subsequent seedling performance was studied in four seed lots of different viability. Seedling performance was assessed using slope tests conducted under controlled conditions and in the field following fluid drilling under a range of environmental conditions. Germination rate within a seed lot was positively related to vigour measured by slope tests, percentage emergence and seedling weight, and was negatively related to the spread of emergence times (In variance days) and the coefficient of variation (c.v.) of seedling weights. Sowing seeds selected as fast germinating resulted in greater seedling emergence percentages over a range of environmental conditions than when sowing seeds selected as slowly germinating.
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Dille, J. Anita, Phillip W. Stahlman, Juan Du, Patrick W. Geier, Jarrett D. Riffel, Randall S. Currie, Robert G. Wilson, et al. "Kochia (Kochia scoparia) Emergence Profiles and Seed Persistence across the Central Great Plains." Weed Science 65, no. 5 (June 15, 2017): 614–25. http://dx.doi.org/10.1017/wsc.2017.18.
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Timing of weed emergence and seed persistence in the soil influence the ability to implement timely and effective control practices. Emergence patterns and seed persistence of kochia populations were monitored in 2010 and 2011 at sites in Kansas, Colorado, Wyoming, Nebraska, and South Dakota. Weekly observations of emergence were initiated in March and continued until no new emergence occurred. Seed was harvested from each site, placed into 100-seed mesh packets, and buried at depths of 0, 2.5, and 10 cm in fall of 2010 and 2011. Packets were exhumed at 6-mo intervals over 2 yr. Viability of exhumed seeds was evaluated. Nonlinear mixed-effects Weibull models were fit to cumulative emergence (%) across growing degree days (GDD) and to viable seed (%) across burial time to describe their fixed and random effects across site-years. Final emergence densities varied among site-years and ranged from as few as 4 to almost 380,000 seedlings m−2. Across 11 site-years in Kansas, cumulative GDD needed for 10% emergence were 168, while across 6 site-years in Wyoming and Nebraska, only 90 GDD were needed; on the calendar, this date shifted from early to late March. The majority (>95%) of kochia seed did not persist for more than 2 yr. Remaining seed viability was generally >80% when seeds were exhumed within 6 mo after burial in March, and declined to <5% by October of the first year after burial. Burial did not appear to increase or decrease seed viability over time but placed seed in a position from which seedling emergence would not be possible. High seedling emergence that occurs very early in the spring emphasizes the need for fall or early spring PRE weed control such as tillage, herbicides, and cover crops, while continued emergence into midsummer emphasizes the need for extended periods of kochia management.
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Benvenuti, Stefano, and Marco Mazzoncini. "“Active” Weed Seed Bank: Soil Texture and Seed Weight as Key Factors of Burial-Depth Inhibition." Agronomy 11, no. 2 (January 22, 2021): 210. http://dx.doi.org/10.3390/agronomy11020210.
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The ability of weeds to survive over time is highly dependent on an ecological strategy that ensures a high level of viable seed remains in the soil. Seed bank persistence occurs because of the specific characteristics of seed dormancy and longevity and the hypoxic microenvironment, which surrounds the buried seeds. These experiments investigate the role of soil texture, burial depth, and seed weight in seed bank dynamics. Seeds of twelve weed species are sown at increasing depths in various soil textures, and emergence data are used to detect the burial depth at which 50% and 95% inhibition is induced, using appropriate regressions. Clay soil is found to increase the depth-mediated inhibition, while it is reduced by sandy particles. In each soil texture, the highest level of inhibition is found for the smallest seeds. Seed weight is found to be closely related to the maximum hypocotyl elongation measured in vitro, and consequently, the seedlings are unable to reach the soil surface beyond a certain depth threshold. However, the threshold of emergence depth is always lower than the potential hypocotyl elongation. The depth-mediated inhibition of buried seeds is even more pronounced in clay soil, highlighting that the small size of clay particles constitutes a greater obstacle during pre-emergence growth. Finally, the role of soil texture and weed seed size are discussed not only in terms of evaluating the layer of “active” seed bank (soil surface thickness capable of giving rise to germination and emergence), but also in terms of developing a consistent and persistent seed bank. Finally, the role of soil texture and weed seed size are discussed, and the layer of “active” seed bank (the soil surface thickness that enables germination and emergence) is assessed with the aim of developing a consistent and persistent seed bank. Assessing seed bank performance when buried under different soil textures can help increase the reliability of the forecast models of emergence dynamics, thus ensuring more rational and sustainable weed management.
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Kenanoglu, Burcu Begüm, Ibrahim Demir, and Henk Jalink. "Chlorophyll Fluorescence Sorting Method to Improve Quality of Capsicum Pepper Seed Lots Produced from Different Maturity Fruits." HortScience 48, no. 8 (August 2013): 965–68. http://dx.doi.org/10.21273/hortsci.48.8.965.
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This work was conducted to investigate the efficacy of chlorophyll fluorescence (CF) sorting to improve seed germination, seedling emergence, and vigor of seeds produced from different maturity fruits of four different cultivars. Four harvest dates from each cultivar were evaluated by harvesting orange (immature), bright red (half-mature), dark red (mature), and dark red and soft (overmature) fruits. Seeds were either sorted or nonsorted after harvesting and standard laboratory germination, seedling emergence, and controlled deterioration tests were conducted. CF sorting significantly increased laboratory germination, seedling emergence, and seed vigor. Maximum improvements were obtained from seeds harvested from half-mature and mature stages. Mean germination improvement among cultivars between CF-sorted and nonsorted seeds were 14% in the immature seeds, 11% in half-mature seeds, 6% in mature seeds, and 9% in overmature seeds. Improvements in seedling emergence were 21%, 17%, 9%, and 10% and 4%, 11%, 10%, 14% for seed vigor (CD germination) in the all maturity stages of seed lots, respectively. CF has the potential to upgrade seed quality in pepper lots as a non-destructive sorting technology.
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Pahlavani, M., A. Miri, and G. Kazemi. "Response of oil and protein content to seed size in cotton(Gossypium hirsutum L., cv. Sahel)." Plant Breeding and Seed Science 59, no. 1 (January 1, 2009): 53–64. http://dx.doi.org/10.2478/v10129-009-0004-8.
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Response of oil and protein content to seed size in cotton(Gossypium hirsutum L., cv. Sahel) This study was designed to identify the response of oil and protein content to non-heritable variation of seed size in cotton (Gossypium hirsutum L.). The experiment was conducted at Gorgan University of Agricultural Sciences, Gorgan, Iran in 2005. The results showed that germination and emergence increased linearity with seed size and R2 of these relationships were 92 and 89%, respectively. This means that larger seed had higher potential of germination and emergence. Also, there was a strong linear relationship between seed weight and oil content. Seed weight provided a better indication of oil content (R2=0.78) than protein content (R2=0.43). There are no considerable relationship between seed size and protein content of seed. The results of this study also showed a positive and significant correlation between seed weight and oil content (r=0.88**), germination percent (r=0.95**), germination index (r=0.84*), emergence percent (r=0.94**), and emergence index (r=0.88**). This results suggest that oil content, germination and emergence of cotton seed was largely affected by size of seeds. The effects of seed size where studied here are pure effects of size and is not confounded by other effects such as genotypic factors. This finding helps cotton breeders for the genetic improvement of germination and emergence along with oil and protein content of seeds.
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Colete, Julio Cesar Fachini, Roberval Daiton Vieira, and Alek Sandro Dutra. "Electrical conductivity and soybean seedling emergence." Scientia Agricola 61, no. 4 (2004): 386–91. http://dx.doi.org/10.1590/s0103-90162004000400006.
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Evaluation of soybean [Glycine max (L.) Merrill] seeds vigor and its relation with field seedling emergence can provide secure indicatives of seed physiological potential. The present research studied the relationship between the electrical conductivity test and the seedling emergence of soybean in field and laboratory. The field experiment was sown in November 26th, December 3td and 10th, 2000. Laboratory tests were performed using levels of water potential in the substrate (soil) -0.03; -0.2; -0.4; and -0.6 MPa. Fourteen seed lots, seven of 'Embrapa 48' and seven of 'BRS 133' soybean cultivars were used. Laboratory tests comprised seed water content determination, before and after the accelerated aging; germination and vigor tests (accelerated aging and electrical conductivity). Germination and seedling emergence decreased as the substrate water potential was reduced, indicating a relationship among the germination, water potential and seed vigor. For the 'Embrapa 48' higher vigor seed lots, the best performance occurred at -0.6 MPa water potential. The electrical conductivity test may be efficient to evaluate soybean seed vigor and, consequently, the performance potential in the field. However, further studies are necessary to determine the values or the range of values that indicate the seed vigor level and the adequate use of a given seed lot.
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Guretzky, John, Amy Kohmetscher, and Deana Namuth-Covert. "Grass Seed Structure and Seedling Emergence." Natural Sciences Education 42, no. 1 (December 2013): 192. http://dx.doi.org/10.4195/nse.2012.0018w.
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De Cauwer, B., R. Devos, S. Claerhout, R. Bulcke, and D. Reheul. "Seed dormancy, germination, emergence and seed longevity inGalinsoga parvifloraandG. quadriradiata." Weed Research 54, no. 1 (October 31, 2013): 38–47. http://dx.doi.org/10.1111/wre.12055.
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Kering, Maru K., and Bo Zhang. "Effect of Priming and Seed Size on Germination and Emergence of Six Food-Type Soybean Varieties." International Journal of Agronomy 2015 (2015): 1–6. http://dx.doi.org/10.1155/2015/859212.
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Soybean (Glycine max(L.) Merr.), a good source of protein and oil, is used to produce nutritious isoflavone-rich soybean-based foods. The objectives of this study were (i) to determine the germination difference among soybean seeds in various seed sizes and (ii) to evaluate effects of seed pretreatment on germination and seedling emergence. Six varieties of different seed size class were used: (i) small size (MFS-561 and V08-4773), (ii) medium size (Glen and V03-47050), and (iii) large size (MFL-159 and V07-1897). Pregermination treatments include 0, 5, or 10 hours soaking and germinating/planting with or without nitrogen fertilizer. Large seed size varieties showed low germination rate and N addition caused the least reduction in germination in these seeds during the first 24 hours. While N had no effect on seed germination after 72 hours, growth in N treated seed was low. Seedling emergence was comparable across varieties in 2013 and water priming and N application had no effect. However, while varieties did not differ in final emergence for nonprimed seeds in 2014, water priming led to a high reduction in seedling emergence of large seed varieties in this study. Application of N fertilizer had no effect on seedling emergence in field experiments.
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de Lucena Marinho, Jéssica, José Henrique Bizzarri Bazzo, Carolina Pereira Cardoso, Claudemir Zucareli, and Inês Cristina de Batista Fonseca. "PRODUTIVIDADE E QUALIDADE FISIOLÓGICA DE SEMENTES DE CULTIVARES DE TRIGO EM DIFERENTES DENSIDADES DE SEMEADURA." COLLOQUIUM AGRARIAE 14, no. 3 (September 1, 2018): 122–31. http://dx.doi.org/10.5747/ca.2018.v14.n3.a234.
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Determination of optimum wheat sowing density, adequate to the genotype and the environment, is essential to avoid lodging and competition between plants, which can reduce seed productivity and quality. In this sense, the objective of this study was to evaluate the effect of seeding density (in cultivars BRS Sabiá e BRS Gralha-Azul) on productivity and physiological quality of seeds of two wheat cultivars. The seeds were produced in the experimental field of the Brazilian Agricultural Research Corporation, in Londrina-PR, at the National Center for Soy Research (Embrapa Soja) in experimental design of randomized blocks in a 2x4 factorial scheme, with four replications. The following evaluations were performed: seed productivity, thousand seeds mass, first count of germination, germination, seedling length, seedling dry weight, accelerated aging, seedling emergence in sand and emergency speed index. In general, the increase in seed density increases seed production and does not alter germination and emergence of seedlings of both cultivars. The cultivar BRS Gralha-Azul proved to be more productive than BRS Sabiá. The increase in seeding density increases seed vigor for BRS Sabiá cultivar and reduces to BRS Gralha-Azul cultivar.
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Mulugeta, Dawit, and David E. Stoltenberg. "Seed bank characterization and emergence of a weed community in a moldboard plow system." Weed Science 45, no. 1 (February 1997): 54–60. http://dx.doi.org/10.1017/s004317450009247x.
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Field experiments were conducted in 1992 and 1993 to characterize the weed seed bank, to determine the influence of moldboard plowing and secondary soil disturbance on the emergence pattern of weeds, and to measure weed seed bank depletion by emergence in a long-term moldboard plow corn cropping system. Viable seeds of common lambsquarters, redroot pigweed, and each of 10 other species accounted for about 85, about 9, and less than 1%, respectively, of the total weed species in the seed bank. A negative binomial distribution described the spatial distribution of viable seeds of 10 species, but not of common lambsquarters or of redroot pigweed. Decreased density of seeds among species was associated with increased aggregation. Secondary soil disturbance increased the rate and magnitude of common lambs quarters emergence in 1992 but did not influence emergence in 1993. Secondary soil disturbance did not influence the magnitude and rate of emergence of redroot pigweed or velvetleaf. Whereas cumulative growing degree days from April through July were similar between years, the amount of rainfall was about 50% less in 1992 than in 1993. Secondary soil disturbance may have increased common lambsquarters emergence by increasing the availability of soil moisture and improving conditions for seed germination during the dry year. Even though seed bank depletion by seedling emergence was relatively low for all species, secondary soil disturbance in creased seed bank depletion of common lambsquarters and redroot pigweed about 7- and 3-fold, respectively, in 1992. Seasonal variation in the amount of rainfall may have influenced the effect of soil disturbance on emergence and seed bank depletion of common lambsquarters, which is the most abundant species in the weed community.
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Ma, Xiaoyan, Yajie Ma, Hanwen Wu, Xiangliang Ren, Weili Jiang, and Yan Ma. "Emergence timing affects growth and reproduction of goosegrass (Eleusine indica)." Weed Technology 33, no. 6 (August 20, 2019): 833–39. http://dx.doi.org/10.1017/wet.2019.61.
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AbstractGoosegrass is considered one of the worst agricultural weeds worldwide. Understanding its life cycle will provide useful management information. Field experiments with six emergence times (April, May, June, July, August, and September) were conducted at Anyang, China in 2015 and 2017 to clarify the growth and reproduction of goosegrass emerging at different times within a season. The result showed that plant height, dry weight, average weight per inflorescence, total inflorescence weight, average seed number per inflorescence, and total number of seeds per plant were relatively low in the April cohort, peaked with the May or June emergence cohort, and decreased thereafter. However, the earliest emergence of goosegrass in April had the highest total number of inflorescences. The plants of the May cohort produced the greatest number of seeds: 225,954 and 322,501 seeds per plant in 2015 and 2017, respectively. Delayed emergence resulted in less seed production; most plants that emerged in September did not flower or set seed. The 1,000-seed weight did not vary among the emergence cohorts. The reproductive investment was lowest for plants of the May cohort and then increased as emergence time was delayed to June, July, and August. Fresh mature seed of all emergence cohorts was extremely dormant and had low germination only up to 6% from August to November, and high germination (44% to 93%) in December. The information gained from this study indicates that weed management strategies should focus on the early-emerged seedlings such as the April and May cohorts, so as to effectively prevent goosegrass seed production, minimize the weed seed replenishment into the soil seed bank, and reduce the infestation in subsequent seasons.
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Mellish and B. Coulman, A. "Seed weight, emergence and seedling vigour of four tetraploid crested wheatgrass populations." Canadian Journal of Plant Science 83, no. 1 (January 1, 2003): 69–70. http://dx.doi.org/10.4141/p01-119.
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This study compared the seed weight, and seedling emergence vigor of four tetraploid crested wheatgrass populations. S9240H, a population selected for seed size, had larger seeds than the cultivars Kirk and CD-II. Heavy seeds had greater emergence and heavier seedlings than light seeds, but there were no differences in these characters among the four populations. Key words: Crested wheatgrass, seed size, seedling vigour
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Marsh, Lurline E., and Dyremple B. Marsh. "Emergence of Matriconditioned Cowpea and Pigeonpea Seeds at Different Soil Moisture Levels." HortScience 30, no. 4 (July 1995): 868D—868. http://dx.doi.org/10.21273/hortsci.30.4.868d.
Full textAbstract:
Increasing seed moisture has been beneficial in improving seedling emergence of some crops. Seed moisture contents of three cowpea (Vigna unguiculata) genotypes (MN13, Pinkeye Purple Hull, and IT 82E-16) and two pigeonpea (Cajanus cajan) (ICPL 85024 and ICPL 8304) were modified by incubating a 10 seed: 4 celite: 13 water (by weight) mixture at 15C. Conditioned seeds had moisture contents ranging from 46% to 64%, while nontreated seeds ranged from 4% to 8%. Matriconditioned and nontreated seeds had <15% emergence at 28 days after planting (DAP) in dry field conditions, where precipitation was <41 mm. In greenhouse tests at 14 DAP, matriconditioning had a negative effect on seeds in flooded, moist, and dry soils. The percent emergence for these seeds was 40% when compared to 60% for nontreated ones. Conditioning did not affect percent emergence at 7 DAP, days to first emergence, and percentage of germinated, unemerged seeds at 14 DAP. In the dry soil, emergence was less and later, and more germinated, unemerged seeds were present at 14 DAP. Cowpeas averaged 56% germination and pigeonpeas were 27%.
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Carvalho, Patrícia Rodrigues Maffud, César Antônio da Silva, Luís Léssi dos Reis, and Janaina Rodrigues Maffud. "Superação de dormência de sementes e desenvolvimento de mudas de jatobazeiro em substratos alternativos." COLLOQUIUM AGRARIAE 16, no. 5 (October 8, 2020): 103–13. http://dx.doi.org/10.5747/ca.2020.v16.n5.a399.
Full textAbstract:
The propagation of the jatoba (Hymenaea courbarilL.) by seeds is highly promising in the recovery of degraded areas. Thus, the present research aimed to compare methods forjatoba plant seeds dormancy overcomingand to evaluate the development of seedlings of this species in alternative substrates. In the first experiment, in screened nursery, a completely randomized design was used, with four replications and seven seed treatments: scarification with sandpaper(SS), SS and immersion in water for 24 h, SS and immersion in water for 48 h, intact seed, seed immersed in water for 48 h and seed immersed in water for 96 h. The seedlings that emergency were counted every other days, from 13 to 51days after sowing, quantifying the emergence percentage, the emergence speed index and the emergence average time.The second experiment, in greenhouse,was composed ofthree replicates, in randomized blocks, being seven substrates were used:commercial substrate (CS); 40% SC + 60% forest humus (FH); 40% SC + 60% charcoal rice husk (CRH); 40% SC + 60% bovine manure (BM); 40% CRH + 60% BM; 40% CRH + 60% FH; e 40% FH + 60% BM. At 50, 70 and 120 days after sowing were evaluated the parameters: seedlingheight, leafsnumber, stem diameter, fresh matterand dry matter of aerial partand roots, and leaf area.At 120 DAS, the chlorophyll index was also evaluated. The scarification with sandpaper and immersion of seeds in water for 24 hours presented a greater emergence (96.4% and IVE = 0.697).The mixture containing 40% FHand 60% BMresulted seedlings with a larger leaf area, chlorophyll index and roots and aerial part dry matter, at 120 days after sowing.