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J Vis Exp


Title:"Linking predation risk, herbivore physiological stress and microbial decomposition of plant litter"
Author(s):Schmitz OJ; Bradford MA; Strickland MS; Hawlena D;
Address:"School of Forestry and Environmental Studies, Yale University, USA. oswald.schmitz@yale.edu"
Journal Title:J Vis Exp
Year:2013
Volume:20130312
Issue:73
Page Number:e50061 -
DOI: 10.3791/50061
ISSN/ISBN:1940-087X (Electronic) 1940-087X (Linking)
Abstract:"The quantity and quality of detritus entering the soil determines the rate of decomposition by microbial communities as well as recycle rates of nitrogen (N) and carbon (C) sequestration. Plant litter comprises the majority of detritus, and so it is assumed that decomposition is only marginally influenced by biomass inputs from animals such as herbivores and carnivores. However, carnivores may influence microbial decomposition of plant litter via a chain of interactions in which predation risk alters the physiology of their herbivore prey that in turn alters soil microbial functioning when the herbivore carcasses are decomposed. A physiological stress response by herbivores to the risk of predation can change the C:N elemental composition of herbivore biomass because stress from predation risk increases herbivore basal energy demands that in nutrient-limited systems forces herbivores to shift their consumption from N-rich resources to support growth and reproduction to C-rich carbohydrate resources to support heightened metabolism. Herbivores have limited ability to store excess nutrients, so stressed herbivores excrete N as they increase carbohydrate-C consumption. Ultimately, prey stressed by predation risk increase their body C:N ratio, making them poorer quality resources for the soil microbial pool likely due to lower availability of labile N for microbial enzyme production. Thus, decomposition of carcasses of stressed herbivores has a priming effect on the functioning of microbial communities that decreases subsequent ability to of microbes to decompose plant litter. We present the methodology to evaluate linkages between predation risk and litter decomposition by soil microbes. We describe how to: induce stress in herbivores from predation risk; measure those stress responses, and measure the consequences on microbial decomposition. We use insights from a model grassland ecosystem comprising the hunting spider predator (Pisuarina mira), a dominant grasshopper herbivore (Melanoplus femurrubrum),and a variety of grass and forb plants"
Keywords:"Animals *Ecosystem Grasshoppers Herbivory/*physiology Plants/chemistry/immunology Poaceae/chemistry/microbiology Predatory Behavior/*physiology *Soil Microbiology Spiders Stress, Physiological/*physiology;"
Notes:"MedlineSchmitz, Oswald J Bradford, Mark A Strickland, Michael S Hawlena, Dror eng Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S. Video-Audio Media 2013/03/26 J Vis Exp. 2013 Mar 12; (73):e50061. doi: 10.3791/50061"

 
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