Modeling and Mapping Forest Floor Distributions of Common Bryophytes Using a LiDAR-Derived Depth-to-Water Index

Goguen, Monique; Arp, Paul A.

doi:10.4236/ajps.2017.84059

Cited by 6 publications

(3 citation statements)

References 49 publications

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“…The urbanization gradient studied here was clearly associated with smaller red mottles, higher drainage and decreasing cover of bryophytes, a species group highly sensitive to changes in light and hydrological regime (Ehrenfeld and Schneider, 1991; Nelson and Halpern, 2005; Goguen and Arp, 2017). Given that the studied swamps had a closed canopy (89% of shade on average), the observed decrease of bryophytes points to altered hydrological regimes as a major environmental change induced by urbanization.…”

Section: Discussionmentioning

confidence: 89%

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Native plant turnover and limited exotic spread explain swamp biotic differentiation with urbanization

Paquin

Bourgeois

Pellerin

et al. 2020

Applied Vegetation Science

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Section: Discussionmentioning

confidence: 89%

“…The cover of bryophytes (largely dominated by Sphagnum spp. ), vernal pools and bare ground surfaces was additionally estimated using the same classes as for plant cover to approximate hydric conditions at soil surface (Goguen and Arp, 2017).…”

Section: Environmental Variablesmentioning

confidence: 99%

Native plant turnover and limited exotic spread explain swamp biotic differentiation with urbanization

Paquin

Bourgeois

Pellerin

et al. 2020

Applied Vegetation Science

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“…The DTW index has been used in previous studies to map and model the distribution of common forest floor bryophyte species with a high degree of accuracy (Goguen & Arp, ). We also previously demonstrated that bryophyte cover, richness and composition in unharvested forests were related to site moisture, as indicated by the DTW index, but that these relationships varied by forest type (Bartels, Caners, Ogilvie, White, & Macdonald, ).…”

Section: Introductionmentioning

confidence: 99%

Depth‐to‐water mediates bryophyte response to harvesting in boreal forests

Bartels

James

Caners

et al. 2019

Journal of Applied Ecology

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1. Site moisture is an important component of the forest landscape for maintaining biodiversity, including forest-floor bryophytes. However, little is known about its role in shaping understorey responses to harvesting.2. We investigated the influence of site wetness, determined using a remotely sensed, topographic depth-to-water (DTW) index, on responses of bryophyte cover, richness, diversity and composition to variable retention harvesting (comparing: 2% [clear-cut], 20% and 50% dispersed green tree retention and uncut controls [100% retention]) in three boreal forest cover-types (broadleaf, mixed and conifer forests) in western Canada. The DTW index provides an approximation of DTW at or below the soil surface and was derived from wet-areas mapping based on discrete Airborne Laser Scanning data acquired over an experimentally harvested landscape located in north-western Alberta, Canada.3. The effectiveness of leaving retention (vs. clear-cutting) for conserving bryophyte communities depended on site wetness, as indicated by DTW, with the specifics varying among forest types. In broadleaf forests, bryophyte cover and richness were generally low and not much affected by harvesting but drier sites had higher richness and a few more unique species. In mixed and conifer forests, leaving retention (vs. clear-cutting) on wetter (vs. drier) sites was more effective for conserving bryophyte cover, wetter sites had higher total species richness and more species were exclusive to wetter sites. 4. Synthesis and applications. Site wetness, as indicated using the remotely sensed topographic site wetness index "depth-to-water" mediates bryophyte responses to variable-retention harvests. Specifically, our results suggested that in conifer and mixed forests it would be more beneficial to target wetter sites for retention patches or dispersed retention whereas in broadleaf forests there might be a slight advantage to targeting drier sites. Our study demonstrates that this tool could be used to inform management decisions around leaving dispersed or patch retention. K E Y W O R D Sboreal forest, depth-to-water index, dispersed green-tree retention, mosses, retention harvest, site moisture, site wetness, wet-areas mappingThis is an open access article under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non-commercial and no modifications or adaptations are made.

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Addressing potential drought resiliency through high-resolution terrain and depression mapping

Oberski

Mróz

Ogilvie

et al. 2021

Agricultural Water Management

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Modeling and Mapping Forest Floor Distributions of Common Bryophytes Using a LiDAR-Derived Depth-to-Water Index

Cited by 6 publications

References 49 publications

Native plant turnover and limited exotic spread explain swamp biotic differentiation with urbanization

Native plant turnover and limited exotic spread explain swamp biotic differentiation with urbanization

Depth‐to‐water mediates bryophyte response to harvesting in boreal forests

Addressing potential drought resiliency through high-resolution terrain and depression mapping

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