Climate change effects on upland stream macroinvertebrates over a 25‐year period
暂无分享,去创建一个
[1] T. Osborn,et al. Simulating the winter North Atlantic Oscillation: the roles of internal variability and greenhouse gas forcing , 2004 .
[2] J. Hurrell. Decadal Trends in the North Atlantic Oscillation: Regional Temperatures and Precipitation , 1995, Science.
[3] S. Schneider,et al. Fingerprints of global warming on wild animals and plants , 2003, Nature.
[4] D. Lytle,et al. Adaptation to natural flow regimes. , 2004, Trends in ecology & evolution.
[5] Stephen James Ormerod,et al. Intensive sampling and transplantation experiments reveal continued effects of episodic acidification on sensitive stream invertebrates , 2006 .
[6] B. Peckarsky,et al. Emergence cues of a mayfly in a high-altitude stream ecosystem: potential response to climate change. , 2006, Ecological applications : a publication of the Ecological Society of America.
[7] J. Feminella,et al. Influence of salinity and temperature on the growth and production of a freshwater mayfly in the Lower Mobile River, Alabama , 2001 .
[8] Robert L. Wilby,et al. When and where might climate change be detectable in UK river flows? , 2006 .
[9] B. Webb,et al. Long-term changes in river temperature and the influence of climatic and hydrological factors , 2007 .
[10] M. Daufresne,et al. Effects of the 2003 heatwave and climatic warming on mollusc communities of the Saône: a large lowland river and of its two main tributaries (France) , 2006 .
[11] Kung-Sik Chan,et al. Ecological Effects of Climate Fluctuations , 2002, Science.
[12] J. M. Elliott,et al. The emergence period of sea trout fry in a Lake District stream correlates with the North Atlantic Oscillation , 2000 .
[13] S. Ormerod,et al. Evaluating the precision of kick-sampling in upland streams for assessments of long-term change: the effects of sampling effort, habitat and rarity , 2002 .
[14] K. Wade,et al. The effects of acidification on the ecology of streams in the upper Tywi catchment in West Wales , 1984 .
[15] James W. Hurrell,et al. The North Atlantic Oscillation: Climate Significance and Environmental Impact , 2003 .
[16] S. Ormerod,et al. Community persistence among stream invertebrates tracks the North Atlantic Oscillation , 2001 .
[17] C. Soulsby,et al. Variation in river water temperatures in an upland stream over a 30-year period. , 2001, The Science of the total environment.
[18] Stephen James Ormerod,et al. Forests and the temperature of upland streams in Wales: a modelling exploration of the biological effects , 1990 .
[19] D. Strayer. Challenges for freshwater invertebrate conservation , 2006, Journal of the North American Benthological Society.
[20] S. Ormerod,et al. Inter‐ and intraspecific differences in climatically mediated phenological change in coexisting Triturus species , 2006 .
[21] G. Minshall,et al. The River Continuum Concept , 1980 .
[22] R. Wilby. Critical Loads' Sensitivity to Climate Change , 1995, Environmental Conservation.
[23] S. Ormerod,et al. Preliminary empirical models of the historical and future impact of acidification on the ecology of Welsh streams , 1988 .
[24] T. H. Clutton-Brock,et al. Why large-scale climate indices seem to predict ecological processes better than local weather , 2004, Nature.
[25] S. Ormerod,et al. Microhabitat availability in Welsh moorland and forest streams as a determinant of macroinvertebrate distribution , 1989 .
[26] S. Ormerod,et al. Densities of benthic macroinvertebrates in upland Welsh streams of different acidity and land use , 1989 .
[27] T. Huntington. Evidence for intensification of the global water cycle: Review and synthesis , 2006 .
[28] M. Murakami,et al. Water temperature determines strength of top‐down control in a stream food web , 2005 .
[29] J. Richardson. Coarse Particulate Detritus Dynamics in Small, Montane Streams Southwestern British Columbia , 1992 .
[30] S. Ormerod,et al. Insect dispersal does not limit the biological recovery of streams from acidification , 2007 .
[31] B. W. Sweeney,et al. Geographic Analysis of Thermal Equilibria: A Conceptual Model for Evaluating the Effect of Natural and Modified Thermal Regimes on Aquatic Insect Communities , 1980, The American Naturalist.
[32] J. M. Elliott,et al. Larvae of the British Ephemeroptera: a key with ecological notes. , 1988 .
[33] H. Hillebrand,et al. North Atlantic Oscillation signatures in aquatic and terrestrial ecosystems—a meta‐analysis , 2002 .
[34] Dietmar Straile,et al. The North Atlantic Oscillation and plankton dynamics in two European lakes –‐ two variations on a general theme , 2000 .
[35] F. Lepori,et al. Effects of stream restoration on ecosystem functioning: detritus retentiveness and decomposition , 2005 .
[36] D. Caissie. The thermal regime of rivers : a review , 2006 .
[37] Chris D. Evans,et al. Modelling the effects of climate change on an acidic upland stream , 2005 .
[38] I. Hogg,et al. Response of Stream Invertebrates to a Global‐Warming Thermal Regime: An Ecosystem‐Level Manipulation , 1996 .
[39] S. Ormerod,et al. Long‐term effects of catchment liming on invertebrates in upland streams , 2002 .
[40] R. Briers,et al. Effects of the North Atlantic Oscillation on growth and phenology of stream insects , 2004 .
[41] N. Lamouroux,et al. Long‐term changes within the invertebrate and fish communities of the Upper Rhône River: effects of climatic factors , 2004 .
[42] Greg Hughes,et al. Vulnerability of African mammals to anthropogenic climate change under conservative land transformation assumptions , 2006 .
[43] S. Dolédec,et al. The intermediate disturbance hypothesis, refugia, and biodiversity in streams , 1997 .
[44] S. Ormerod,et al. The impact of acidification on macroinvertebrate assemblages in welsh streams: towards an empirical model. , 1987, Environmental pollution.
[45] M. Sykes,et al. Climate change threats to plant diversity in Europe. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[46] Jeroen C. J. H. Aerts,et al. Winter atmospheric circulation and river discharge in northwest Europe , 2006 .
[47] S. Ormerod,et al. Exploitation of prey by a river bird, the dipper Cinclus cinclus (L.), along acidic and circumneutral streams in upland Wales , 1991 .
[48] L. Füreder,et al. Long‐term studies of freshwater macroinvertebrates: a review of the frequency, duration and ecological significance , 2006 .
[49] R. Wright,et al. Long-term records and modelling of acidification, recovery, and liming at Lake Hovvatn, Norway , 2005 .
[50] P. S. Lake,et al. Energy and nutrient fluxes from rivers and streams into terrestrial food webs , 2006 .
[51] Michael J. Sale,et al. IMPACTS OF CLIMATE CHANGE ON AQUATIC ECOSYSTEM FUNCTIONING AND HEALTH 1 , 1999 .
[52] B. Cosby,et al. Modelling the effect of climate change on recovery of acidified freshwaters: relative sensitivity of individual processes in the MAGIC model. , 2006, The Science of the total environment.
[53] Kevin J. Gaston,et al. Thermal tolerance, climatic variability and latitude , 2000, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[54] D. Jacobsen,et al. Respiration Rate of Stream Insects Measured in situ Along a Large Altitude Range , 2005, Hydrobiologia.
[55] M. Dobson,et al. APPLIED ISSUES Increasing litter retention in moorland streams: ecological and management aspects of a field experiment , 1995 .
[56] P. S. Lake,et al. Disturbance, patchiness, and diversity in streams , 2000, Journal of the North American Benthological Society.
[57] V. Resh,et al. Long-term seasonal variation in the biological traits of benthic-macroinvertebrates in two Mediterranean-climate streams in California, U.S.A. , 2006 .
[58] W. Cramer,et al. The performance of models relating species geographical distributions to climate is independent of trophic level , 2004 .
[59] E. van der Maarel,et al. On the use of ordination models in phytosociology , 2004, Vegetatio.
[60] S. Ormerod. Current issues with fish and fisheries: editor's overview and introduction , 2003 .
[61] L. Hannah,et al. Would climate change drive species out of reserves? An assessment of existing reserve‐selection methods , 2004 .
[62] R. Usinger,et al. Variability in the macrofauna of a single riffle in Prosser Creek, California, as indicated by the Surber sampler , 1956 .
[63] James W. Hurrell,et al. The North Atlantic Oscillation: Climatic Significance and Environmental Impact , 2003 .
[64] M. Klug,et al. Feeding Ecology of Stream Invertebrates , 1979 .
[65] A. Hildrew,et al. FACTORS FACILITATING THE COEXISTENCE OF HYDROPSYCHID CADDIS LARVAE (TRICHOPTERA) IN THE SAME RIVER SYSTEM , 1979 .
[66] C. Neal,et al. Impacts of the North Atlantic Oscillation on stream water chemistry in mid-Wales , 2004 .
[67] R. Wagner. The influence of stream water temperature on size and weight of caddisflies (Insecta, Trichoptera) along the Breitenbach 1983-1991 , 2005 .