Disturbance and diversity: Lichen species richness decreases with increasing anthropogenic disturbance

Disturbance and diversity: Lichen species richness decreases with increasing anthropogenic disturbance

Anthropogenic disturbance is rapidly increasing through habitat degradation, development, and deforestation. Gaps remain in understanding the effects of this disturbance on diverse and ecologically important organisms such as lichens. In North America, studies have focused on epiphytic macrolichens...

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Veröffentlicht in:Biological conservation 2024-05, Vol.293, p.110598, Article 110598
Hauptverfasser: Boggess, Laura M., McCain, Christy M., Manzitto-Tripp, Erin A., Pearson, Scott M., Lendemer, James C.
Format: Artikel
Sprache:eng
Schlagworte:
anthropogenic activities
BASIC BIOLOGICAL SCIENCES
Biodiversity
canopy
data collection
deforestation
epiphytes
Forest management
forestry
habitat destruction
habitats
Intermediate disturbance hypothesis (IDH)
land management
Land-use change
Lichen community ecology
lichens
morphs
North America
Old-growth forest
species
species richness
trees
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container_issue
container_start_page 110598
container_title Biological conservation
container_volume 293
creator Boggess, Laura M.
McCain, Christy M.
Manzitto-Tripp, Erin A.
Pearson, Scott M.
Lendemer, James C.
description Anthropogenic disturbance is rapidly increasing through habitat degradation, development, and deforestation. Gaps remain in understanding the effects of this disturbance on diverse and ecologically important organisms such as lichens. In North America, studies have focused on epiphytic macrolichens and catastrophic disturbance, largely ignoring microlichens and less severe disturbances. The Intermediate Disturbance Hypothesis predicts these moderate disturbances will lead to higher species richness. Here we examine the effects of anthropogenic disturbance in the form of land management on overall lichen richness, including microlichens, and on the species richness of eight lichen functional groups. The study draws on a comprehensive data set of 872 species, in 208 one-hectare plots throughout the Southern Appalachian Mountains, a global biodiversity hotspot in eastern North America. A habitat quality index based on an established forestry metric was used as a proxy for anthropogenic disturbance and was quantified using a 10-part score including categories such as percent native tree canopy cover and degree of fragmentation. Linear models were used to compare habitat quality scores to overall species richness and to species richness of functional groups. Rather than following the Intermediate Disturbance Hypothesis, all groups uniformly follow a negative linear relationship: as disturbance increases, species richness decreases. This pattern held even for widely variable functional groups such as morphotype. Effective conservation of lichen richness should prioritize the maintenance of existing older, less-disturbed stands within large, contiguously forested areas.
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ispartof Biological conservation, 2024-05, Vol.293, p.110598, Article 110598
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source Elsevier ScienceDirect Journals
subjects anthropogenic activities
BASIC BIOLOGICAL SCIENCES
Biodiversity
canopy
data collection
deforestation
epiphytes
Forest management
forestry
habitat destruction
habitats
Intermediate disturbance hypothesis (IDH)
land management
Land-use change
Lichen community ecology
lichens
morphs
North America
Old-growth forest
species
species richness
trees
title Disturbance and diversity: Lichen species richness decreases with increasing anthropogenic disturbance
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