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Distinctive Connectivities of Near-Stream and Watershed-Wide Land Uses Differentially Degrade Rural Aquatic Ecosystems
Author(s) -
C. Rhett Jackson,
Kristen K. Cecala,
Seth J. Wenger,
Joseph E. Kirsch,
Jackson R. Webster,
David S. Leigh,
Jennifer M. Sanders,
Jason P. Love,
Jennifer D. Knoepp,
Jennifer M. Fraterrigo,
Amy D. Rosemond
Publication year - 2021
Publication title -
bioscience
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.761
H-Index - 209
eISSN - 1525-3244
pISSN - 0006-3568
DOI - 10.1093/biosci/biab098
Subject(s) - environmental science , water quality , surface runoff , land use , watershed , land management , stream restoration , riparian buffer , aquatic ecosystem , ecology , habitat , riparian zone , biology , computer science , machine learning
The water-quality effects of low-density rural land-use activities are understudied but important because of large rural land coverage. We review and synthesize spatially extensive studies of oligotrophic mountain streams in the rural Southern Appalachian Mountains, concluding that rural land-use activities significantly degrade water quality through altered and mostly enhanced landscape–stream connections, despite high forest retention. Some connections (insolation, organic inputs, root–channel interactions, stream–field connectivity, individual landowner discharges) are controlled by near-stream land-use activities, whereas others (reduced nitrogen uptake and cycling, enhanced biological nitrogen fixation, nutrient subsidy, runoff from compacted soils, road runoff delivery) are controlled by basin-wide land use. These connections merge to alter basal resources and shift fish, salamander, and invertebrate assemblages toward species tolerant of higher turbidity and summer temperatures and those more competitive in mesotrophic systems. Rural water quality problems could be mitigated substantially with well-known best management practices, raising socioecological governance questions about best management practice adoption.

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