Factors determining vegetation recovery after abandonment of coal-mining villages

There have been many earlier studies of the biodiversity and ecosystem services of abandoned farmlands, but studies of abandoned villages are limited, particularly in Asian countries. The drastic aging and depopulation of Japanese society will likely lead to increased village abandonment in the futu...

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Published inLandscape and ecological engineering Vol. 17; no. 2; pp. 95 - 106
Main Authors Motosugi, Nanane, Nakamura, Futoshi, Nakajima, Souta, Takahata, Chihiro, Kawamura, Kazuhiro, Morimoto, Junko
Format Journal Article
LanguageEnglish
Published Tokyo Springer Japan 01.04.2021
Springer Nature B.V
Subjects
Abandoned mines
Abandonment
Aging
Aging (natural)
Agricultural land
Anthropogenic factors
Biodiversity
Biomedical and Life Sciences
Civil Engineering
Coal mines
Coal mining
Composition
Ecological succession
Ecosystem services
Environmental factors
Environmental Management
Forests
Land use
Landscape Ecology
Landscape/Regional and Urban Planning
Life Sciences
Nature Conservation
Old fields
Original Paper
Plant diversity
Plant Ecology
Recovery
Species diversity
Towns
Trees
Understory
Vegetation
Villages
Depopulation
Restoration
Biodiversity
Plant succession
Land-use abandonment
Secondary forest
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Summary:There have been many earlier studies of the biodiversity and ecosystem services of abandoned farmlands, but studies of abandoned villages are limited, particularly in Asian countries. The drastic aging and depopulation of Japanese society will likely lead to increased village abandonment in the future. To properly manage abandoned villages and build a comprehensive land-use plan, we need to know how natural succession will proceed after the abandonment of local towns and villages. We investigated forest structures and compositions at the sites of abandoned mining villages and compared them with ambient undisturbed natural forests. The environmental factors that determine plant succession are the distance from ambient forests, land-use period, and years since abandonment. The results showed that the sizes of tall trees and species diversity of understory vegetation recovered to the level of the control sites approximately 50–60 years after village abandonment. However, the species compositions of tall trees and understory vegetation were fairly different from those of the control sites. The distance from ambient natural forest, which regulates the seed supply for abandoned sites; land-use periods, which are surrogates for the durations of anthropogenic disturbance; and times since abandonment are strong drivers of the recovery of forest species compositions.
ISSN:1860-1871
1860-188X
DOI:10.1007/s11355-020-00438-3