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排序方式: 共有269条查询结果,搜索用时 312 毫秒
41.
RENÉ van der WAL SOFIE SJÖGERSTEN† SARAH J. WOODIN† ELISABETH J. COOPER‡ INGIBJÖRG S. JÓNSDÓTTIR‡ DRIES KUIJPER§ TONY A. D. FOX¶ A. D. HUISKES 《Global Change Biology》2007,13(2):539-545
Tundra ecosystems are widely recognized as precious areas and globally important carbon (C) sinks, yet our understanding of potential threats to these habitats and their large soil C store is limited. Land‐use changes and conservation measures in temperate regions have led to a dramatic expansion of arctic‐breeding geese, making them important herbivores of high‐latitude systems. In field experiments conducted in high‐Arctic Spitsbergen, Svalbard, we demonstrate that a brief period of early season belowground foraging by pink‐footed geese is sufficient to strongly reduce C sink strength and soil C stocks of arctic tundra. Mechanisms are suggested whereby vegetation disruption due to repeated use of grubbed areas opens the soil organic layer to erosion and will thus lead to progressive C loss. Our study shows, for the first time, that increases in goose abundance through land‐use change and conservation measures in temperate climes can dramatically affect the C balance of arctic tundra. 相似文献
42.
UWE MOHR JÜRG LANGE THOMAS BOLLER RES WIEMKEN & REGINA VÖGELI-LANGE 《The New phytologist》1998,138(4):589-598
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T cell infiltration into class II MHC-disparate allografts and acute rejection is dependent on the IFN-gamma-induced chemokine Mig. 总被引:6,自引:0,他引:6
S Koga M B Auerbach T M Engeman A C Novick H Toma R L Fairchild 《Journal of immunology (Baltimore, Md. : 1950)》1999,163(9):4878-4885
Direct evidence that cytokines with chemoattractant properties for leukocytes, chemokines, recruit alloantigen-primed T cells into transplanted allografts has been lacking. We present evidence that neutralization of a single chemokine inhibits T cell infiltration into class II MHC-disparate murine allografts and acute rejection. The chemokines IFN-gamma-inducible protein-10 and monokine induced by IFN-gamma (Mig) are expressed in allogeneic skin grafts during the late stages of acute rejection. Survival of class II MHC-disparate B6.H-2bm12 allografts is prolonged from day 14 to day 55 posttransplant when C57BL/6 recipients are given a short course treatment with an antiserum to Mig. This treatment also inhibits T cell and macrophage infiltration into the allografts. B6.H-2bm12 allografts are also not rejected by IFN-gamma-/- C57BL/6 recipients. Injection of Mig directly into B6.H-2bm12 grafts on IFN-gamma-deficient recipients restores T cell infiltration and rejection. Therefore, the inability of IFN-gamma-deficient recipients to reject the class II MHC-disparate allografts is due to the lack of intraallograft Mig production and alloantigen-primed T cell recruitment to the graft. These results indicate for the first time the potential utility of chemokine neutralization strategies in preventing T cell infiltration into allografts and abrogating acute rejection. 相似文献
49.
JÜRG ENKERLI ROLAND K
LLIKER SIEGFRIED KELLER FRANCO WIDMER 《Molecular ecology resources》2005,5(2):384-386
Fourteen polymorphic microsatellite markers were isolated from the entomopathogenic fungus, Metarhizium anisopliae, based on enriched genomic libraries. In order to assess allelic variability, the microsatellite loci were analysed in a collection of 34 isolates sampled from across Switzerland. The number of detected alleles in 14 loci ranged from two to eight and expected heterozygosity from 0.265 to 0.808. Because of the high expected heterozygosity, the 14 microsatellite loci are very useful for ecological studies and analysis of population diversity, and to identifying, monitoring, and tracking M. anisopliae strains applied as biological control agents. 相似文献
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Scaling of respiration from the leaf to the canopy level currently depends on identification of physiological parameters that are tightly linked to respiration and that can readily be determined. Several recent studies have helped provide guides to predicting whole canopy respiration on the basis of foliar nitrogen (N). This approach is potentially powerful owing to the well‐described patterns of allocation of N that follow interception of radiation. In the present study, we investigated the sensitivity of the N–respiration correlation to environmental and developmental factors, in order to evaluate its usage for attempts to scale respiration to the organism and ecosystem level. We studied fully expanded, 1 and 2‐year‐old, and current‐year needles from canopies of Pinus radiata that had been treated (unthinned, thinned and thinned+fertilized treatments) in ways likely to induce a wide range of growth and respiratory responses. We examined respiration in detail during the growth period in spring and again at the end of summer, using calorespirometric methods (combined measurements of CO2 and heat rates) to determine the respiration rates , instantaneous enthalpic growth rates (RSGΔHB, a measure of the conservation of electrons in anabolic products) and the enthalpy conversion efficiency (ηH) of needles differing in age. A general linear model revealed that was positively correlated with needle N, but this correlation was strongly dependent on the season and the needle age – indicating an important physiological difference between expanding young needles and fully expanded old needles. Furthermore, the strength of the correlation between needle N and respiration was comparatively weak for the current year, expanding foliage, indicating that factors other than foliage N significantly influenced the respiration of young needles. The analysis of instantaneous growth rates revealed two general processes. Older, nonexpanding foliage showed considerable rates of enthalpic growth (increases in enthalpy) that was mainly caused by the increment of lignin during secondary growth. Secondly, canopy development appeared dynamic and to be optimized according to environmental drivers and constraints – such as light and water availability. In late spring, needle extension slowed in the upper, but not the lower canopy, because the upper canopy appeared to be affected first by the onset of drought stress in late spring. Growth rates were reduced in the upper canopy despite greater rates of respiration, indicating higher demand of ATP for the maintenance of protein and for export of sugars. Consequently, the enthalpy conversion efficiency and enthalpic N productivity (enthalpic growth per unit N) were comparatively poor indicating advanced development of needles in the upper canopy. We suggest that the growth and maintenance paradigm of respiration is, at best, only moderately useful when applied to whole trees, and is not valid at the cellular level or that of the plant organ. A different concept, namely that of respiratory efficiency, seems a more suitable way to represent respiration in carbon (C) balance models and should help provide a better mechanistic understanding of how respiration affects the C conversion efficiency of plants, and ultimately the net primary productivity of ecosystems. 相似文献