Linking Landscape-Scale Disturbances to Stress and Condition of Fish: Implications for Restoration and Conservation

Document Details:

Title: Linking Landscape-Scale Disturbances to Stress and Condition of Fish: Implications for Restoration and Conservation
Category: Conference Proceeding
File: Jeffrey-et-al_2015_0405_Linking-Landscape-Scale-Disturbances-to-Stress-and-Condition-of-Fish.pdf
Updated Date: 20.10.2017
Author(s)/Source(s): Jennifer D. Jeffrey, Caleb T. Hasler, Jacqueline M. Chapman, Steven J. Cooke,Cory D. Suski
Publication Date: 2015
Focal Topic: Habitat Restoration, In-Stream Flow / Flow Regime, Hydrology, Water Quality, Land Management & Irrigation
Abstract:

Humans have dramatically altered landscapes as a result of urban and agricultural development, which has led to decreases in the quality and quantity of habitats for animals. This is particularly the case for freshwater fish that reside in fluvial systems, given that changes to adjacent lands have direct impacts on the structure and function of watersheds. Because choices of habitat have physiological consequences for organisms, animals that occupy sub-optimal habitats may experience increased expenditure of energy or homeostatic overload that can cause negative outcomes for individuals and populations. With the imperiled and threatened status of many freshwater fish, there is a critical need to define relationships between land use, quality of the habitat, and physiological performance for resident fish as an aid to restoration and management. Here, we synthesize existing literature to relate variation in land use at the scale of watersheds to the physiological status of resident fish. This examination revealed that landscape-level disturbances can influence a host of physiological properties of resident fishes, ranging from cellular and genomic levels to the hormonal and whole-animal levels. More importantly, these physiological responses have been integrated into traditional field based monitoring protocols to provide a mechanistic understanding of how organisms interact with their environment, and to enhance restoration. We also generated a conceptual model that provides a basis for relating landscape-level changes to physiological responses in fish. We conclude that physiological sampling of resident fish has the potential to assess the effects of landscape-scale disturbances on freshwater fish and to enhance restoration and conservation.

Keyword Tags:
Restoration, Conservation, Fish Stress, Landscape-Scale Disturbances