Historic deforestation and non‐native plant invasions determine vegetation trajectories across an oceanic archipelago

Questions Oceanic islands are global hotspots of endemism and evolutionary radiations but many have been severely degraded by human activities and biological invasions. We evaluated the pace and direction of the natural recovery of ecosystems over 77 years across a subtropical oceanic archipelago in...

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Bibliographic Details
Published in:Applied vegetation science 2024-01, Vol.27 (1), p.n/a
Main Authors: Ohashi, Haruka, Kato, Hitoshi, Murao, Mina, Kato, Hidetoshi, Kawakami, Kazuto, Kurokawa, Hiroko, Oguro, Michio, Kimura, Fuku, Niiyama, Kaoru, Matsui, Tetsuya, Shibata, Mitsue
Format: Article
Language:English
Subjects:
Anthropogenic factors
Archipelagoes
Deforestation
Ecosystem recovery
Endemism
Environmental restoration
feral goats
forest vegetation
Forests
historical vegetation survey data
Human influences
Human settlements
Indigenous plants
Introduced species
Invasions
Invasive species
Islands
Marine ecosystems
Oceanic islands
Plant communities
Recoverability
Restoration
UNESCO World Natural Heritage site
Vegetation
vegetation map
Vegetation mapping
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Summary:Questions Oceanic islands are global hotspots of endemism and evolutionary radiations but many have been severely degraded by human activities and biological invasions. We evaluated the pace and direction of the natural recovery of ecosystems over 77 years across a subtropical oceanic archipelago including islands of various size, elevation, histories of human settlement and deforestation, and invasions by non‐native plants and mammals. This information is essential to guide the ecological restoration of the archipelago. Location Forest vegetation on nine of the Ogasawara Islands in the northwestern Pacific Ocean. Methods We first digitized historical vegetation data of the Ogasawara Islands collected during field surveys in 1935. Then, after checking their species compositions, we integrated past and present plant community types. Finally, we identified the landscape‐scale changes in forest vegetation by comparing vegetation maps from 1935, 1979 and 2012. Results Over 77 years, the vegetation trajectories of each island varied depending on the introduction of invasive alien species and the remaining proportion of native forest, the latter of which had a strong influence on the recoverability of native forest. Conclusions Our results highlight the importance of the history of invasive species introductions and the remaining proportion of native forest—both of which reflect the intensity of anthropogenic disturbance—in determining the degree of human intervention needed for restoration on oceanic islands. The discovery of 1935 vegetation survey data enabled us to clarify changes in forest vegetation over 77 years in the Ogasawara Islands, one of the world's most unique oceanic island ecosystems with high endemism. Our results highlight the importance of past invasive species introductions and the proportion of remaining native forests in determining the necessity of human intervention for restoration.
ISSN:1402-2001
1654-109X
DOI:10.1111/avsc.12767