The Ecology of Plant Litter Decomposition in Stream Ecosystems

1. Front Matter

   Pages i-ix

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2. General Overview on Plant Litter Decomposition in Streams

   1. Front Matter

      Pages 1-1

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   2. The Ecology of Plant Litter Decomposition in Stream Ecosystems: An Overview

      • Christopher M. Swan, Luz Boyero, Cristina Canhoto

      Pages 3-5

   3. Multi-Scale Biophysical Factors Driving Litter Dynamics in Streams

      • Alan M. Tonin, José F. Gonçalves Júnior, Richard G. Pearson, Manuel A. S. Graça, Javier Pérez, Luz Boyero

      Pages 7-21

   4. Stoichiometry of Plant Litter Decomposition in Stream Ecosystems

      • Michael Danger, Julio Arce-Funck, Miriam Beck, Clément Crenier, Vincent Felten, Ziming Wang et al.

      Pages 23-49

   5. Global Patterns of Plant Litter Decomposition in Streams

      • Luz Boyero, Mark O. Gessner, Richard G. Pearson, Eric Chauvet, Javier Pérez, Scott D. Tiegs et al.

      Pages 51-71

   6. Plant Litter Decomposition in Intermittent Rivers and Ephemeral Streams

      • Rubén del Campo, Arnaud Foulquier, Gabriel Singer, Thibault Datry

      Pages 73-100

   7. Plant Litter Decomposition in Terrestrial Ecosystems Compared to Streams

      • Pablo García-Palacios, I. Tanya Handa, Stephan Hättenschwiler

      Pages 101-126

3. Biodiversity and Plant Litter Decomposition

   1. Front Matter

      Pages 127-127

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   2. Biodiversity and Plant Litter Decomposition in Streams

      • Christopher M. Swan

      Pages 129-142

   3. The Role of Key Plant Species on Litter Decomposition in Streams: Alder as Experimental Model

      • Javier Pérez, Ana Basaguren, Naiara López-Rojo, Alan M. Tonin, Francisco Correa-Araneda, Luz Boyero

      Pages 143-161

   4. Linking Microbial Decomposer Diversity to Plant Litter Decomposition and Associated Processes in Streams

      • Cláudia Pascoal, Isabel Fernandes, Sahadevan Seena, Michael Danger, Verónica Ferreira, Fernanda Cássio

      Pages 163-192

   5. The Role of Macroinvertebrates on Plant Litter Decomposition in Streams

      • Micael Jonsson, Ryan A. Sponseller

      Pages 193-216

   6. The Role of Protozoans and Microscopically Small Metazoans in Aquatic Plant Litter Decomposition

      • Julia Reiss

      Pages 217-233

4. Global Change and Plant Litter Decomposition

   1. Front Matter

      Pages 235-235

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   2. Individual and Interacting Effects of Elevated CO2, Warming, and Hydrologic Intensification on Leaf Litter Decomposition in Streams

      • Jennifer J. Follstad Shah

      Pages 237-271

   3. Causes and Consequences of Changes in Riparian Vegetation for Plant Litter Decomposition Throughout River Networks

      • John S. Kominoski, Samantha K. Chapman, Walter K. Dodds, Jennifer J. Follstad Shah, John S. Richardson

      Pages 273-296

   4. Effects of Exotic Tree Plantations on Plant Litter Decomposition in Streams

      • Aitor Larrañaga, Aingeru Martínez, Ricardo Albariño, J. Jesús Casas, Verónica Ferreira, Romina Principe

      Pages 297-322

   5. Salt Modulates Plant Litter Decomposition in Stream Ecosystems

      • Cristina Canhoto, Felix Bärlocher, Miguel Cañedo-Argüelles, Rosa Gómez, Ana Lúcia Gonçalves

      Pages 323-345

   6. Pathways, Mechanisms, and Consequences of Nutrient-Stimulated Plant Litter Decomposition in Streams

      • David W. P. Manning, Verónica Ferreira, Vladislav Gulis, Amy D. Rosemond

      Pages 347-377

With almost 90% of terrestrial plant material entering the detrital pool, the processing of this significant carbon source is a critical ecosystem function to understand. Riverine ecosystems are estimated to receive, process and transport nearly 1.9 Pg of terrestrial carbon per year globally, highlighting the focus many freshwater ecologists have on the factors that explain decomposition rates of senesced plant material. Since Webster and Benfield offered the first comprehensive review of these factors in 1986, there has been an explosion of research addressing key questions about the ecological interactions at play. Ecologists have developed field and laboratory techniques, as well as created global scale collaborations to disentangle the many drivers involved in the decomposition process. This book encapsulates these 30+ years of research, describing the state of knowledge on the ecology of plant litter decomposition in stream ecosystems in 22 chapters written by internationally renowned experts on the subject.

• Leaf Litter
• Ecosystem Services
• Biotic Factors
• Ephemeral Streams
• Abiotic Factors
• Food Webs
• Biodiversity Controls
• Litter Breakdown
• Litter Chemistry Shifts
• Global Change
• Mesocosms
• Microcosms

• Geography and Environmental Sciences, University of Maryland Baltimore County, Baltimore, USA

  Christopher M. Swan

• Faculty of Science and Technology, University of the Basque Country, Leioa, Bizkaia, Spain

  Luz Boyero

• Department of Life Sciences, University of Coimbra, Centre for Functional Ecology, Coimbra, Portugal

  Cristina Canhoto

Christopher Swan is a professor in the Department of Geography and Environmental Systems at the University of Maryland Baltimore County.  He is a community ecologist with interests in streams and rivers, in addition to urban ecology. His research projects range from understanding controls on carbon processing in rivers, to mechanisms underscoring biodiversity patterns at multiple spatial scales in both aquatic and terrestrial urban ecosystems, as well as numerous synthesis activities both nationally and internationally.

Luz Boyero is a research professor at the University of the Basque Country and the Basque Foundation for Science (Ikerbasque). Her research focuses on how multiple anthropogenic stressors impact the functioning of stream ecosystems, with particular emphasis on how biodiversity loss influences key processes such as plant litter decomposition and nutrient cycling. She coordinates GLoBE, a network of 50+ research teams from all over the world, which join forces to investigate the main patterns and drivers of stream ecosystem functioning at the global scale.

Cristina Canhoto is a researcher at the Center for Functional Ecology of the University of Coimbra (CFE-UC) and professor at the Department of Life Sciences, University of Coimbra, Portugal. Over the last 20 years, her work was centered on the functioning of forested streams. She has been mainly focused on the dynamics of litter decomposition and on the physiological and ecological responses of fungal decomposers and leaf consumers in the face of environmental variability and anthropogenic stressors.