Current and future habitat suitability modelling of Bambusa teres outside forest areas in Nepal under climate change scenarios

Bambusa teres Buch.-Ham. ex Munro (syn. Bambusa nutans subsp. capulata Stapleton) is a fast-growing perennial bamboo that has ecological, economic, cultural and climate change mitigation benefits. However, information on its current and future potential distribution outside forest areas across Nepal...

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Bibliographic Details
Published in:Advances in Bamboo Science (Online) 2024-11, Vol.9, p.100112, Article 100112
Main Authors: Kharel, Binay, Ayer, Santosh, Kafle, Samit, Timilsina, Sachin, Bhatta, Kishor Prasad, Gautam, Jeetendra, Acharya, Amul Kumar, Lamichhane, Prakash, Airee, Janak
Format: Article
Language:English
Subjects:
Bamboo species
Habitat suitability mapping
MaxEnt model
Nepal
Species distribution modelling
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Summary:Bambusa teres Buch.-Ham. ex Munro (syn. Bambusa nutans subsp. capulata Stapleton) is a fast-growing perennial bamboo that has ecological, economic, cultural and climate change mitigation benefits. However, information on its current and future potential distribution outside forest areas across Nepal and the key factors affecting its growth and distribution are little known. We used a total of 298 occurrence points obtained from the National Bamboo Resource Assessment and 23 environmental variables to project the distribution of B. teres throughout its potential range in Nepal. Maximum entropy model (MaxEnt) was utilized for this study. We assessed the performance of the model using a receiver operating characteristic curve and evaluated the relative importance of predictor variables through a Jackknife procedure. The model achieved a high level of performance with an area under the curve value of 0.928. Precipitation of the coldest quarter (bio_19), temperature seasonality (bio_4) and precipitation seasonality (bio_15) were the significant contributing variables for the distribution of B. teres. The most suitable habitat for B. teres, with a suitability index >0.6, covered 9264.6 km2, with large sections in Eastern and Central Nepal. However, under future climate change scenarios, the area of suitable habitat for the species is projected to increase across Nepal. This study serves as a baseline for assessing potential climate change impacts on B. teres and will enable the development of adaptive measures to protect and establish various bamboo populations outside forest areas in Nepal and globally. •Environmental factors significantly influence the growth of bamboo species.•Bambusa teres is scattered across various ecological regions of Nepal.•Occurrence data and environmental variables were analyzed using the MaxEnt model to map bamboo species distribution.•A high AUC value (0.928) confirms the model's accuracy in identifying suitable habitats for B. teres.•Precipitation of the driest period and warmest quarter are key factors affecting habitat suitability of B. teres outside forests.•Habitat suitable to bamboo outside forest is expected to increase under climate change.
ISSN:2773-1391
2773-1391
DOI:10.1016/j.bamboo.2024.100112