Valentins Sloss 1922–2016          下载免费PDF全文

DB Galloway  TA Mason  BW Parry 《Australian veterinary journal》2017,95(5):137-137

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Effects of selective cutting and herbicide use in spring barley on seed production of Cirsium arvense     

Theo Verwijst  Varwi Jacob Tavaziva 《Acta Agriculturae Scandinavica, Section B - Plant Soil Science》2017,67(6):562-570

A field experiment was performed in Sweden to evaluate the effect of herbicide treatment and selective cutting on the seed production of Cirsium arvense. Four treatments (control (C), selective cutting (S), early (H1) and late (H2) herbicide application) were laid out in a randomized block experiment. The field was sown with spring barley and contained a natural population of the weed. Treatments were first applied 2015 and repeated 2016. Changes in the number of seeds per flower receptacle and average seed weight were measured over time in 2016 from the onset of seed production until crop harvest. At harvest, number of shoots per area and cumulative numbers of flower receptacles, which had shed mature seeds over the season, were counted. These data were used to assess total seed production over the season. Treatment H2 led to a significantly decreased number of seeds per receptacle (49) compared to S (59), H1 (64) and C (67). Over time and treatment, number of seeds per flower receptacle was lowest in the second week (47) and increased over the third week to 69 in week four. Average weight per seed was about constant over time (0.91?mg) while H1 and S (0.63 and 0.78?mg, respectively) had lower seed weights compared to H2 and C (1.04 and 1.19?mg, respectively). Total seed production over the season in terms of number of seeds per square meter was greatly reduced by all treatments (5–20 seeds m^?2, or 3–14?mg?m^?2) compared to the control (6600 seeds m^?2, or 7800?mg?m^?2). We conclude that seed production of C. arvense is inhibited a thousand-fold and equally well by selective cutting as by early or late herbicide treatments.  相似文献   

Erratum to: Antimicrobial resistance and virulence profile of enterococci isolated from poultry and cattle sources in Nigeria     

Ngbede  Emmanuel Ochefije  Raji  Mashood Abiola  Kwanashie  Clara Nna  Kwaga  Jacob Kwada Paghi 《Tropical animal health and production》2017,49(4):885-885

Tropical Animal Health and Production -  相似文献   

Rice Germin-Like Proteins: Allelic Diversity and Relationships to Early Stress Responses   总被引：1，自引：0，他引：1  

Rebecca M. Davidson  Patricia M. Manosalva  Jacob Snelling  Myron Bruce  Hei Leung  Jan E. Leach 《Rice》2010,3(1):43-55

Germin-like protein (GLP) markers were associated with quantitative trait loci (QTL) for resistance to the rice blast pathogen, Magnaporthe oryzae in multiple rice (Oryza sativa) mapping populations. Twelve paralogous OsGLP gene family members are located within the physical QTL region on chromosome 8, and gene silencing studies suggest that they contribute collectively to the resistance phenotype. We compared sequence and expression profiles of OsGLP alleles in two resistant and two susceptible parental rice lines to find functional polymorphisms that correlated with the resistant phenotype. Based on coding and promoter sequences, the genes belong to two germin subfamily groups (GER3 and GER4). OsGLP members from both subfamilies were constitutively expressed and developmentally regulated in all cultivars. Transient induction above constitutive levels was observed for some OsGLPs, especially GER4 subfamily members, at early time points after M. oryzae infection and mechanical wounding. Varying 5′ regulatory regions and differential expression of some family members between resistant and susceptible cultivars corresponded with differential hydrogen peroxide (H₂O₂) accumulation after the same stimuli. OsGLP of both GER subfamilies localized to the plant cell wall. The protein location and early gene induction suggest that OsGLPs protect rice leaves at early stages of infection before fungal penetration and subsequent ingress. Our data suggest that regulation of OsGLP genes defines resistant versus susceptible phenotypes.  相似文献   

Economic impact of Wheat streak mosaic virus in the Texas High Plains     

Margarita Velandia  Roderick M. Rejesus  David C. Jones  Jacob A. Price  Fekede Workneh  Charles M. Rush 《Crop Protection》2010

Wheat streak mosaic virus, vectored by the wheat curl mite Aceria tosichella Keifer, is a major limiting factor in wheat production in the Texas Panhandle. It is the most frequently encountered virus in the region, affecting both shoot and root biomass, and consequently it can drastically reduce both forage and grain yield, and water-use efficiency of the plant. In light of the continuing decline of water levels in the Ogallala Aquifer, its effect on water-use efficiency has significant implications for irrigated fields, especially with regard to energy costs for pumping water. This article estimates the potential economic losses from the virus infection. To achieve this objective, partial budgeting techniques, based primarily on data from field experiments, were used. Results indicate that Wheat streak mosaic virus causes grain and forage yield losses that significantly affect profits from wheat production. In addition, irrigated wheat producers are more negatively affected by the disease due to the economic losses from reduced water-use efficiency of infected plants. The economic insights from this article provide important implications for wheat management and research priority-setting.  相似文献   

Productivity of temperate broad-leaved forest stands differing in tree species diversity   总被引：1，自引：0，他引：1  

Mascha Jacob  Christoph Leuschner  Frank M. Thomas 《Annals of Forest Science》2010,67(5):503-503

? Understanding the effects of tree species diversity on biomass and production of forests is fundamental for carbon sequestration strategies, particularly in the perspective of the current climate change. However, the diversity-productivity relationship in old-growth forests is not well understood.

? We quantified biomass and above-ground production in nine forest stands with increasing tree species diversity from monocultures of beech to stands consisting of up to five deciduous tree species (Fagus sylvatica, Fraxinus excelsior, Tilia spp., Carpinus betulus, Acer spp.) to examine (a) if mixed stands are more productive than monospecific stands, (b) how tree species differ in the productivity of stem wood, leaves and fruits, and (c) if beech productivity increases with tree diversity due to lower intraspecific competition and complementary resource use.

? Total above-ground biomass and wood production decreased with increasing tree species diversity. In Fagus and Fraxinus, the basal area-related wood productivity exceeded those of the co-occurring tree species, while Tilia had the highest leaf productivity. Fagus trees showed no elevated production per basal area in the mixed stands.

? We found no evidence of complementary resource use associated with biomass production. We conclude that above-ground productivity of old-growth temperate deciduous forests depend more on tree species-specific traits than on tree diversity itself.

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Diversity of human copy number variation and multicopy genes     

Sudmant PH  Kitzman JO  Antonacci F  Alkan C  Malig M  Tsalenko A  Sampas N  Bruhn L  Shendure J; Genomes Project  Eichler EE 《Science (New York, N.Y.)》2010,330(6004):641-646

Copy number variants affect both disease and normal phenotypic variation, but those lying within heavily duplicated, highly identical sequence have been difficult to assay. By analyzing short-read mapping depth for 159 human genomes, we demonstrated accurate estimation of absolute copy number for duplications as small as 1.9 kilobase pairs, ranging from 0 to 48 copies. We identified 4.1 million "singly unique nucleotide" positions informative in distinguishing specific copies and used them to genotype the copy and content of specific paralogs within highly duplicated gene families. These data identify human-specific expansions in genes associated with brain development, reveal extensive population genetic diversity, and detect signatures consistent with gene conversion in the human species. Our approach makes ~1000 genes accessible to genetic studies of disease association.  相似文献   

Exclusion of Vibrio spp. by an antagonistic marine actinomycete Streptomyces rubrolavendulae M56          下载免费PDF全文

Deepthi Augustine  Jimly C Jacob  Rosamma Philip 《Aquaculture Research》2016,47(9):2951-2960

A marine actinomycete Streptomyces rubrolavendulae M56 isolated from the sediments of Bay of Bengal and displaying biogranulation property was used for the study. The strain showed antagonistic property against vibrios, the opportunistic pathogens in aquaculture. The efficacy of the biogranules of actinomycete M56 in competitive exclusion of Vibrio spp. was tested both in vitro and in vivo. Streptomyces rubrolavendulae M56 biogranules could significantly exclude the pathogenic Vibrio spp. in co‐culture experiments (in vitro). In vivo exclusion of Vibrio spp. in a Penaeus monodon postlarval rearing system was evaluated by treatment of the rearing water with biogranules of S. rubrolavendulae M56. The experiments proved that S. rubrolavendulae M56 biogranules could reduce the pathogenic Vibrio spp., while maintaining total heterotrophic bacterial count. Therefore, the actinomycete biogranules (M56) can be used as a promising alternative to antibiotics in the shrimp larval production system which is often affected by vibriosis.  相似文献   

Fungal endophyte infection increases carbon sequestration potential of southeastern USA tall fescue stands     

Javed Iqbal  Jacob A. Siegrist  Jim A. Nelson  Rebecca L. McCulley 《Soil biology & biochemistry》2012,44(1):81-92

Tall fescue (Schedonorus arundinaceous (Schreb.)) is often infected with a common toxic fungal endophyte (Neotyphodium coenophialum) capable of producing alkaloids that affect grazing animal health, insect herbivory, plant production, and litter decomposition. The strength of these endophyte-associated effects is thought to depend on the abiotic and biotic conditions of a specific site. Prior work from Georgia, USA, has demonstrated that fungal endophyte infection can increase soil carbon pools of tall fescue pastures; however, for endophyte infection to contribute substantially to regional carbon sequestration, this result would have to hold true across the broad range of environmental conditions that support tall fescue growth. In this study, we evaluated whether endophyte infection consistently alters various soil parameters, including carbon storage, of tall fescue stands located throughout the southeastern United States. Soil samples were collected from nine sites with established paired high- and low- endophyte-infected tall fescue stands. These samples were analyzed for basic soil parameters, soil organic carbon (SOC), soil total nitrogen (TN), particulate and non-particulate organic matter-C and -N (POM, n-POM), C and N mineralization rates, and microbial biomass and community composition. Averaged across all sites, endophyte-infected tall fescue stands had 6% greater SOC and 5% greater TN pools in surface soil than adjacent endophyte-free stands. The lack of a significant interaction between site and endophyte infection status indicated that this result was relatively consistent across sites, despite differences in stand age, climate, and other environmental conditions. While POM C and POM N tended to be higher in endophyte-infected than endophyte-free stands, this result was not significant. However, greater pools of n-POM C and N were observed in endophyte-infected vs. endophyte-free stands when averaged across all the sites, suggesting increased retention of recalcitrant substrates occurred in response to fungal endophyte infection. Total microbial biomass, measured via phospholipid fatty acid (PLFA) analysis, was greater in endophyte-infected than endophyte-free soils when averaged across sites, reflecting the trends observed with SOC and TN. Microbial community composition shifted somewhat in response to fungal endophyte infection: significantly higher fungal to bacterial ratios were observed in endophyte-free compared to endophyte-infected stands. However, ordinations of the PLFA data demonstrated only slight separation of endophyte-infected and endophyte-free microbial communities at some sites and no clear separation at others. Enhanced SOC, TN, recalcitrant n-POM C and N pools, and altered microbial biomass and communities suggest that this aboveground fungal endophyte symbiosis has widespread effects on soil biology and biochemistry, and that high prevalence of the aboveground endophyte increases C sequestration capacity of tall fescue stands throughout the southeastern USA.  相似文献   

Erratum to: Application of confocal laser scanning microscopy (CLSM) to visualize the effect of porous media wettability on unsaturated pore water configuration     

Gawan Jacob Hilma Muehl  Joerg Ruehlmann  Marc-Oliver Goebel  Joerg Bachmann 《Journal of Soils and Sediments》2012,12(1):116-116

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