Climate change puts the invasive Japanese honeysuckle (Lonicera japonica) on the move in the southern forestlands of the United States

Invasions of nonnative species have multiple implications, including modification of biogeochemical cycles, inhibition of natural regeneration of native species, and loss of ecosystem biodiversity and productivity. Japanese honeysuckle ( Lonicera japonica Thunb.) is a vigorous invader of the souther...

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Veröffentlicht in:	Biological invasions 2024-07, Vol.26 (7), p.2267-2279
Hauptverfasser:	Peterson, Miranda R., Derouen, Zakary, Koralewski, Tomasz E., Wang, Hsiao-Hsuan, Heldman, Samantha M., Bishop, Alexandra E., Grant, William E.
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Sprache:	eng
Schlagworte:	Alabama Annual precipitation Arkansas atmospheric precipitation Biodiversity Biogeochemical cycles Biomedical and Life Sciences climate Climate change Developmental Biology Ecology Ecosystems forest land Forest management forests Freshwater & Marine Ecology Georgia Indigenous species Introduced species Invasions Invasive species Kentucky Life Sciences Lonicera japonica Mississippi natural regeneration North Carolina Original Paper Plant Sciences Range extension Regression analysis Risk South Carolina species Statistical analysis temperature Tennessee USDA Forest Service Virginia
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container_title	Biological invasions
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creator	Peterson, Miranda R. Derouen, Zakary Koralewski, Tomasz E. Wang, Hsiao-Hsuan Heldman, Samantha M. Bishop, Alexandra E. Grant, William E.
description	Invasions of nonnative species have multiple implications, including modification of biogeochemical cycles, inhibition of natural regeneration of native species, and loss of ecosystem biodiversity and productivity. Japanese honeysuckle ( Lonicera japonica Thunb.) is a vigorous invader of the southern forestlands of the United States (U.S.). Our objectives were to document changes in the distribution of Japanese honeysuckle since the turn of the century, identify climatic variables correlated with its successful invasion, and project its potential future distribution under climate change. To accomplish this, we analyzed the most recent U.S. Forest Service field measurements of Japanese honeysuckle in the southern U.S. Our analysis indicated that the number of sampled plots invaded by Japanese honeysuckle from 2009 to 2017 increased by approximately 53% compared to plots sampled from 2000 to 2008, and the mean percent coverage of Japanese honeysuckle in sampled plots increased significantly. Results of boosted regression tree analysis indicated that probability of invasion was correlated with six climatic variables, including annual precipitation, annual mean temperature, max temperature of warmest month, mean diurnal range, temperature annual range, and isothermality. The states projected to be most at risk to invasion under the historical climate were Kentucky, Arkansas, Tennessee, North Carolina, Mississippi, Alabama, Georgia, and South Carolina. Future projections imply a northward shift of predominant species presence, with the most likely affected states being Kentucky, Virginia, Tennessee, North Carolina, Alabama, and Georgia. Our model provides important insights into the management of Japanese honeysuckle in the southern forestlands of the U.S. By identifying current and potential future high-risk and low-risk areas, our results can aid forest managers in developing long term monitoring and control strategies for effectively slowing Japanese honeysuckle range expansion and mitigating its effects.
doi_str_mv	10.1007/s10530-024-03314-5
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Results of boosted regression tree analysis indicated that probability of invasion was correlated with six climatic variables, including annual precipitation, annual mean temperature, max temperature of warmest month, mean diurnal range, temperature annual range, and isothermality. The states projected to be most at risk to invasion under the historical climate were Kentucky, Arkansas, Tennessee, North Carolina, Mississippi, Alabama, Georgia, and South Carolina. Future projections imply a northward shift of predominant species presence, with the most likely affected states being Kentucky, Virginia, Tennessee, North Carolina, Alabama, and Georgia. 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Results of boosted regression tree analysis indicated that probability of invasion was correlated with six climatic variables, including annual precipitation, annual mean temperature, max temperature of warmest month, mean diurnal range, temperature annual range, and isothermality. The states projected to be most at risk to invasion under the historical climate were Kentucky, Arkansas, Tennessee, North Carolina, Mississippi, Alabama, Georgia, and South Carolina. Future projections imply a northward shift of predominant species presence, with the most likely affected states being Kentucky, Virginia, Tennessee, North Carolina, Alabama, and Georgia. 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subjects	Alabama Annual precipitation Arkansas atmospheric precipitation Biodiversity Biogeochemical cycles Biomedical and Life Sciences climate Climate change Developmental Biology Ecology Ecosystems forest land Forest management forests Freshwater & Marine Ecology Georgia Indigenous species Introduced species Invasions Invasive species Kentucky Life Sciences Lonicera japonica Mississippi natural regeneration North Carolina Original Paper Plant Sciences Range extension Regression analysis Risk South Carolina species Statistical analysis temperature Tennessee USDA Forest Service Virginia
title	Climate change puts the invasive Japanese honeysuckle (Lonicera japonica) on the move in the southern forestlands of the United States
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