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Full-Text Articles in Life Sciences
A Fatty Acid Based Bayesian Approach For Inferring Diet In Aquatic Consumers, Aaron W. E. Galloway, Michael T. Brett, Gordon W. Holtgrieve, Eric J. Ward, Ashley P. Ballantyne, Carolyn W. Burns, Martin J. Kainz, Doerthe C. Muller-Navarra, Jonas Persson, Joseph L. Ravet, Ursula Strandberg, Sami J. Taipale, Gunnel Alhgren
A Fatty Acid Based Bayesian Approach For Inferring Diet In Aquatic Consumers, Aaron W. E. Galloway, Michael T. Brett, Gordon W. Holtgrieve, Eric J. Ward, Ashley P. Ballantyne, Carolyn W. Burns, Martin J. Kainz, Doerthe C. Muller-Navarra, Jonas Persson, Joseph L. Ravet, Ursula Strandberg, Sami J. Taipale, Gunnel Alhgren
Ecosystem and Conservation Sciences Faculty Publications
We modified the stable isotope mixing model MixSIR to infer primary producer contributions to consumer diets based on their fatty acid composition. To parameterize the algorithm, we generated a ‘consumer-resource library’ of FA signatures of Daphnia fed different algal diets, using 34 feeding trials representing diverse phytoplankton lineages. This library corresponds to the resource or producer file in classic Bayesian mixing models such as MixSIR or SIAR. Because this library is based on the FA profiles of zooplankton consuming known diets, and not the FA profiles of algae directly, trophic modification of consumer lipids is directly accounted for. To test …
A Comparison Of Plot-Based Satellite And Earth System Model Estimates Of Tropical Forest Net Primary Production, Cory C. Cleveland, Philip Taylor, K. Dana Chadwick, Kyla Dahlin, Christopher E. Doughty, Yadvinder Malhi, W. Kolby Smith, Benjamin W. Sullivan, William R. Wider, Alan R. Townsend
A Comparison Of Plot-Based Satellite And Earth System Model Estimates Of Tropical Forest Net Primary Production, Cory C. Cleveland, Philip Taylor, K. Dana Chadwick, Kyla Dahlin, Christopher E. Doughty, Yadvinder Malhi, W. Kolby Smith, Benjamin W. Sullivan, William R. Wider, Alan R. Townsend
Ecosystem and Conservation Sciences Faculty Publications
Net primary production (NPP) by plants represents the largest annual flux of carbon dioxide (CO2) from the atmosphere to the terrestrial biosphere, playing a critical role in the global carbon (C) cycle and the Earth’s climate. Rates of NPP in tropical forests are thought to be among the highest on Earth, but debates about the magnitude, patterns, and controls of NPP in the tropics highlight uncertainty in our understanding of how tropical forests may respond to environmental change. Here, we compared tropical NPP estimates generated using three common approaches: (1) field-based methods scaled from plot-level measurements of plant …