, Nutrient enrichment overwhelms diversity effects in leaf decomposition by stream fungi, Oikos, vol.101, pp.247-252, 2003.
, Invertebrate colonization and processing of maple leaf litter in a forested and an agricultural reach of a stream, Hydrobiologia, vol.234, pp.65-77, 1992.
, Introduction to Meta-Analysis Global distribution of a key trophic guild contrasts with common latitudinal diversity patterns, Ecology, vol.92, pp.1839-1848, 2009.
, A global experiment suggests climate warming will not accelerate litter decomposition in streams but may reduce carbon sequestration, Ecology Letters, vol.14, pp.289-294, 2011.
, Estimation and application of indicator values for common macroinvertebrate genera and families of the United States, Ecological Indicators, vol.7, pp.22-33, 2007.
, Evaluation of stream ecological integrity using litter decomposition and benthic invertebrates, Environmental Pollution, vol.153, pp.440-449, 2008.
, Production of extracellular cellulase by Lunulospora curvula and Flagellospora penicillioides, Folia Microbiologica, vol.36, pp.249-255, 1991.
, Contribution of fungal biomass to the growth of the shredder, Pycnopsyche gentilis (Trichoptera: Limnephilidae), Freshwater Biology, vol.54, pp.2212-2224, 2009.
, Eutrophication alters the effects of riparian plant diversity on litter decomposition by macroinvertebrates Mixtures of zinc and phosphate affect leaf litter decomposition by aquatic fungi in streams, Science of the Total Environment, vol.407, pp.4283-4288, 2009.
, Importance of stream microfungi in controlling breakdown rates of leaf litter, Ecology, vol.75, pp.1807-1817, 1994.
, A case for using litter breakdown to assess functional stream integrity, Ecological Applications, vol.12, pp.498-510, 2002.
, Food quality, feeding preferences, survival and growth of shredders from temperate and tropical streams, Freshwater Biology, vol.46, pp.947-957, 2001.
, Effects of nutrient enrichment on Yellow Poplar leaf decomposition and fungal activity in streams, Journal North American Benthological Society, vol.20, pp.33-43, 2001.
, Fungal biomass and leaf litter processing in streams of different water chemistry, Hydrobiologia, vol.294, pp.51-61, 1994.
, Rapid decomposition of maize detritus in agricultural headwater streams, Ecological Applications, vol.19, pp.133-142, 2009.
, Contribution of stream detrivores, fungi, and bacteria to leaf breakdown based on biomass estimates, Ecology, vol.83, pp.1026-1038, 2002.
, Catchment land-use, macroinvertebrates and detritus processing in headwater streams: taxonomic richness versus function, Freshwater Biology, vol.47, pp.401-415, 2002.
, Recovering missing or partial data from studies: a survey of conversions and imputations for meta-analysis. In Handbook of Meta-Analysis in Ecology and Evolution Diversity and functions of leaf-decaying fungi in human-altered streams, Freshwater Biology, vol.53, pp.195-206, 2008.
, Assessment of functional integrity of eutrophic streams using litter breakdown and benthic macroinvertebrates, Archiv für Hydrobiologie, vol.165, pp.105-126, 2006.
, The role of elevated dissolved versus foliar nitrogen on leaf litter processing in stream ecosystems Responses of stream macroinvertebrates and ecosystem function to conventional, integrated and organic farming, Journal of Applied Ecology, vol.47, pp.1014-1025, 2010.
, Placing biodiversity and ecosystem functioning in context: environmental perturbations and the effects of species richness in a stream eld experiment, Oecologia, vol.160, pp.757-770, 2009.
, Recovery of southern Appalachian streams from historical agriculture PhD Thesis: Virginia Polytechnic Institute and State University Effects of agriculture on wood breakdown and bioolm respiration in southern Appalachian streams, Freshwater Biology, vol.53, pp.842-854, 2004.
, Microorganisms overwhelm invertebrates in controlling leaf litter breakdown in a polluted river Contribution of fungi and bacteria to leaf litter decomposition in a polluted river, Applied Environmental Microbiology, vol.70, pp.5266-5273, 2004.
, Biological responses of a tundra river to fertilization, Ecology, vol.74, pp.653-672, 1993.
, Leaf litter recycling in benthic and hyporheic layers in agricultural streams with different types of land use, Science of the Total Environment, vol.409, pp.4373-4380, 2011.
, Leaf-litter decomposition in headwater streams: a comparison on the process among four climatic regions, Journal of the North American Benthological Society, vol.30, pp.935-950, 2011.
, A safe operating space for humanity, Nature, vol.461, pp.472-475, 2009.
, Landscape variation in phosphorus concentration and effects on detritus-based tropical streams, Limnology and Oceanography, vol.47, pp.278-289, 2002.
, Processing of native and exotic leaf litter in two Idaho (U.S.A) streams, Hydrobiologia, vol.400, pp.123-128, 1999.
, The role of early fungal colonizers in leaf-litter decomposition in Portuguese streams impacted by agricultural runoff, International Review of Hydrobiology, vol.94, pp.399-409, 2009.
, Effect of water chemistry and leaf species on leaf breakdown in neotropical headwater streams Does nitrogen become limiting under high-P conditions in detritus-based tropical streams, Freshwater Biology, vol.51, pp.1515-1526, 2004.
, Multiple trophic levels of a forest stream linked to terrestrial litter inputs, Science, vol.277, pp.102-104, 1997.
, Continental-scale effects of nutrient pollution on stream ecosystem functioning, Science, vol.336, pp.1438-1440, 2012.