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Georgianne W. Moore David A. Barre M. Keith Owens 《Strength and Conditioning Journal》2012,65(1):1-10
Evapotranspiration (ET) is a key component limiting groundwater recharge past the root zone in semiarid regions. Vegetation management may alter groundwater recharge if ET is altered due to changes in vegetation type or cover. This study quantifies changes in groundwater recharge following vegetation cover change from native woodland to pasture in a semiarid region of southwest Texas. The Carrizo–Wilcox aquifer is a valuable groundwater resource in this area, where overuse by dependent farming practices has lowered aquifer levels significantly in the last 85 yr. Combining data from short-term (30 mo) monitoring of the changes in soil moisture and long-term (5–30 yr) changes in total soil chloride indicated deep drainage increased slightly where land had been cleared of vegetation. Annual recharge rates below rooting depths (standardized to 155 cm) averaged only 0.72 ± mm · yr-1 (mean ± SE) in areas not cleared of woody vegetation, as estimated by chloride mass balance. Upon clearing, 72% of the total chloride naturally occurring in the soil profile was flushed away within 30 yr, leading to an estimated 2.59 ± mm · yr-1 additional recharge. Deep soil moisture in recently cleared land increased by up to 17% during the growing season of wet years (double the average rainfall) but did not increase in dry or normal precipitation years, providing supporting evidence that more water penetrated below the roots under certain environmental conditions. These results demonstrate that brush management can increase recharge by modest, but measurable, amounts depending on site-specific soil characteristics and degree of reduction in vegetation. 相似文献
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LA Barre W McAllester DP Slotkin JS Stewart OC Tax S 《Science (New York, N.Y.)》1951,114(2970):582-583
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Mahieu Stéphanie Novak Sandra Barre Philippe Delagarde Rémy Niderkorn Vincent Gastal François Emile Jean-Claude 《Agroforestry Systems》2021,95(7):1295-1308
Agroforestry Systems - In temperate regions, tree leaves could be a source of energy, protein, vitamins and minerals for ruminants. Our objective was to study the diversity in chemical composition... 相似文献
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Doris Herrmann Sandrine Flajoulot Philippe Barre Christian Huyghe Joëlle Ronfort Bernadette Julier 《Genetic Resources and Crop Evolution》2018,65(2):527-540
Diversity and structure of populations may differ substantially between morphological traits and molecular markers. Explanations of such discrepancies are crucial for further progress in breeding as well as for the maintenance of genetic resources. Our objective was to compare indices of among-cultivars differentiation for morphological traits (QST) and molecular markers (FST) in alfalfa (Medicago sativa), a legume forage species. Ten cultivars representing the Northern and Southern types commonly grown in Europe were investigated. For each cultivar, 40 genotypes were analysed with 16 SSR markers and four morphological traits measured in two locations and several cuts. QST values were in general high (0.02–0.39) compared to the differentiation observed with molecular markers (FST = 0.01), especially for growth habit, indicating that morphological traits were more efficient to structure the diversity than molecular markers. For morphological traits, a clear separation of Northern and Southern cultivars was observed, whereas for molecular markers, no clear structure was detected. Nevertheless, the grazing type cultivar Luzelle was separated from the rest of the cultivars for both morphological traits and molecular markers. Although pairwise differences between cultivars were significant for both morphological traits and molecular markers, the main part of the variation was found within cultivars. This large within-cultivar variation may be explained, besides the outcrossing reproductive mode and autotetraploid genetics, by the recent history of M. sativa domestication in Europe and the frequent seed exchanges. Selection for morphological traits (QST > FST) was achieved without modification of within-cultivar neutral diversity. 相似文献
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Annick Barre Els J.M. Van Damme Mathias Simplicien Herv Benoist Pierre Roug 《Marine drugs》2020,18(11)
Seaweed lectins, especially high-mannose-specific lectins from red algae, have been identified as potential antiviral agents that are capable of blocking the replication of various enveloped viruses like influenza virus, herpes virus, and HIV-1 in vitro. Their antiviral activity depends on the recognition of glycoprotein receptors on the surface of sensitive host cells—in particular, hemagglutinin for influenza virus or gp120 for HIV-1, which in turn triggers fusion events, allowing the entry of the viral genome into the cells and its subsequent replication. The diversity of glycans present on the S-glycoproteins forming the spikes covering the SARS-CoV-2 envelope, essentially complex type N-glycans and high-mannose type N-glycans, suggests that high-mannose-specific seaweed lectins are particularly well adapted as glycan probes for coronaviruses. This review presents a detailed study of the carbohydrate-binding specificity of high-mannose-specific seaweed lectins, demonstrating their potential to be used as specific glycan probes for coronaviruses, as well as the biomedical interest for both the detection and immobilization of SARS-CoV-2 to avoid shedding of the virus into the environment. The use of these seaweed lectins as replication blockers for SARS-CoV-2 is also discussed. 相似文献
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Natural diversity in vegetative and reproductive investments of perennial ryegrass is shaped by the climate at the place of origin 
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下载免费PDF全文 P. Barre T. Ruttink H. Muylle P. Lootens J.‐P. Sampoux A. Rohde D. Combes I. Roldán‐Ruiz 《Grass and Forage Science》2018,73(1):193-205
In forage grasses, vegetative and reproductive investments are major determinants of yield and persistence. A survey of the diversity of vegetative and reproductive investment traits was carried out on 213 perennial ryegrass genotypes, representing 51 natural European accessions. Plants were phenotyped for traits related to leaf elongation, tillering, reproductive investment and heading date, at two locations with markedly different climates. Strong genetic effects for all traits were found. Interactions between genotype and location were moderate. Plants showed stronger spring leaf growth, lower numbers of tillers and higher reproductive investments at Lusignan (France) than at Melle (Belgium). Plant growth rate and tillering capacity were genetically nearly independent suggesting breeding for both traits simultaneously and independently should be possible. A high genetic diversity was observed for all traits. This diversity was structured in three main clusters. One cluster comprised early‐flowering genotypes with high reproductive investments and high spring growth rates. The remaining genotypes fell into two clusters based on differences in tillering capacity. Clear links were found between traits and the climatic conditions of the region of origin of the accessions. Autumn growth rate was positively correlated with solar radiation at the region of origin in October and February. 相似文献
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Peter?LootensEmail author Tom?Ruttink Antje?Rohde Didier?Combes Philippe?Barre Isabel?Roldán-Ruiz 《Plant methods》2016,12(1):32
Background
Genetic studies and breeding of agricultural crops frequently involve phenotypic characterization of large collections of genotypes grown in field conditions. These evaluations are typically based on visual observations and manual (destructive) measurements. Robust image capture and analysis procedures that allow phenotyping large collections of genotypes in time series during developmental phases represent a clear advantage as they allow non-destructive monitoring of plant growth and performance. A L. perenne germplasm panel including wild accessions, breeding material and commercial varieties has been used to develop a low-cost, high-throughput phenotyping tool for determining plant growth based on images of individual plants during two consecutive growing seasons. Further we have determined the correlation between image analysis-based estimates of the plant’s base area and the capacity to regrow after cutting, with manual counts of tiller number and measurements of leaf growth 2 weeks after cutting, respectively. When working with field-grown plants, image acquisition and image segmentation are particularly challenging as outdoor light conditions vary throughout the day and the season, and variable soil colours hamper the delineation of the object of interest in the image. Therefore we have used several segmentation methods including colour-, texture- and edge-based approaches, and factors derived after a fast Fourier transformation. The performance of the procedure developed has been analysed in terms of effectiveness across different environmental conditions and time points in the season.Results
The procedure developed was able to analyse correctly 77.2 % of the 24,048 top view images processed. High correlations were found between plant’s base area (image analysis-based) and tiller number (manual measurement) and between regrowth after cutting (image analysis-based) and leaf growth 2 weeks after cutting (manual measurement), with r values up to 0.792 and 0.824, respectively. Nevertheless, these relations depend on the origin of the plant material (forage breeding lines, current forage varieties, current turf varieties, and wild accessions) and the period in the season.Conclusions
The image-derived parameters presented here deliver reliable, objective data, complementary to the breeders’ scores, and are useful for genetic studies. Furthermore, large variation was shown among genotypes for the parameters investigated.10.
Paula Menna Barreto Dias Bernadette Julier Jean-Paul Sampoux Philippe Barre Miguel Dall’Agnol 《Euphytica》2008,160(2):189-205
The NPGS-USDA core collection with 85 accessions of red clover, an important forage species, is little described. The goal
of the present study was to evaluate the diversity of a set of accessions from the core collection at the morphological and
molecular level in order to extract some valuable accessions for Brazilian red clover breeding programs. Twenty-one morphological
traits, collected in field and greenhouse in South Brazil, and seven SSR markers were used to describe 57 accessions from
the U.S. core collection and one population cultivated in Southern Brazil. Variation between accessions was large for most
of the 21 morphological traits. A cluster analysis based on the morphological traits revealed five distinct clusters that
separated the populations according to flowering earliness, as already described, but also according to persistency, growth
habit and dry matter productivity. Over seven SSR loci, the number of alleles averaged 11.1 alleles per locus. Genetic diversity
measured with SSR markers was high, with a mean expected heterozygosity of 0.86. An analysis of molecular variance revealed
that the largest proportion of variation (83.6%) resided at the within population level. Although the molecular markers also
separated accessions into five clusters, there was no coincidence between the composition of groups found with morphological
and molecular data. Use of genetic diversity in breeding programs requires to use the most promising populations, to combine
positive traits such as persistency and forage yield, and probably to use within population variation to detect valuable genotypes
that could be used as parents of synthetic varieties. 相似文献