Abstract
AbstractInvertebrates are important sediment engineers, making up for their small body size with abundance and behavioral diversity. However, despite the recognized importance of invertebrates as sediment engineers in terrestrial and marine environments, zoogeomorphology in rivers has primarily considered larger taxa, such as fish and beaver. This article reviews the zoogeomorphic effects of invertebrates in freshwater habitats, with a focus on rivers. To better synthesize current zoogeomorphic research and to help guide future studies we build a conceptual model considering biotic (behavior, abundance, body size, life history, and species invasions) and abiotic (geophysical energy and sediment grain size) controls on the direction and magnitude of zoogeomorphology. We also incorporate invertebrate engineers into conceptual sediment entrainment models, to understand their geomorphic role in the context of hydraulic power and sediment size. We structure our review around invertebrate behavior as a key control on whether invertebrates have a sediment destabilizing or stabilizing impact. Invertebrate zoogeomorphic behavior are diverse; the majority of research concernsbioturbation, a result of locomotion, foraging, and burrowing behaviors by many taxa. Similarly, burrowing into bedrock by a caddisfly and non‐biting midge larvae promotesbioerosion. Attachment to the substrate, (e.g., silk nets by caddisfly larvae or byssal threads by some mussels) can stabilize sediment, providingbioprotection.Bioconstructions(e.g., caddisfly cases and mussel shells) may have either stabilizing or destabilizing effects depending on their density and abiotic context. Interactions between lotic invertebrates and fluvial processes are complex and understudied, requiring further research across a greater range of taxa, behaviors, and spatiotemporal scales.This article is categorized under:Water and Life > Nature of Freshwater EcosystemsWater and Life > Conservation, Management, and Awareness
Highlights
Recognition of the importance of biology in landform development represents a paradigm shift within geomorphological research (Corenblit et al, 2007; Viles, 1988)
This article reviews the zoogeomorphic effects of freshwater invertebrates, with a focus on rivers, and refines existing conceptual models of biotic and abiotic controls on zoogeomorphology
We suggest that abundance and body size and life history primarily influence the magnitude of a zoogeomorphic effect while the nature and direction of the effect (Box 1) is a result of organism behavior (Figure 5.2)
Summary
Recognition of the importance of biology in landform development represents a paradigm shift within geomorphological research (Corenblit et al, 2007; Viles, 1988). This article reviews the zoogeomorphic effects of freshwater invertebrates, with a focus on rivers, and refines existing conceptual models of biotic and abiotic controls on zoogeomorphology. Box 1 Zoogeomorphic effects of freshwater invertebrate taxa (i) Bioerosion Degradation of hard surfaces by organisms (e.g., caddisfly larvae burrowing into bedrock).
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