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Assessing tree diversity and carbon storage during land use transitioning from shifting cultivation to indigenous agroforestry systems: Implications for REDD+ initiatives.

Authors :
Reang, Demsai
Hazarika, Animekh
Sileshi, Gudeta W.
Pandey, Rajiv
Das, Ashesh Kumar
Nath, Arun Jyoti
Source :
Journal of Environmental Management. Nov2021, Vol. 298, pN.PAG-N.PAG. 1p.
Publication Year :
2021

Abstract

Indigenous agroforestry systems are important reservoirs of biodiversity, and ecosystem services with a potential contribution for conservation of biodiversity while sustaining the livelihood of the rural populace. Pineapple (Ananas comosus) agroforestry systems (PAFS) form an essential constituent of the rural landscape in the Indian Eastern Himalayas and other parts of Asia. The traditional PAFS management in southern Assam is unique in that it involves shifting cultivation transitioning from native forests to a PAFS. Scarcity of information on the functioning and services in terms of species diversity and carbon storage potential in the traditional PAFS has restricted the opportunities for consideration under the nature-based solutions of climate action including REDD+. Therefore, the present study assessed the tree diversity and ecosystem carbon storage in a chronosequence from swidden agriculture through different phases of PAFS establishment. The result demonstrated that basal area in the PAFS increased with age. The most dominant species in the native forests was Palaquium polyanthum , while agricultural land use and PAFS aged <5, 11–15 and > 15 years old were dominated by Gmelina arborea , Albizia procera , Areca catechu and Hevea brasiliensis , respectively. The highest value of Shannon-Wiener diversity index (H) was recorded in native forests (2.71), and lowest in 5–10 years old PAFS. The ecosystem carbon storage declined from 261.43 Mg ha−1 in native forests to 181.07 Mg ha−1 in <5-years old PAFS. In <5 years old PAFS, the ecosystem carbon storage was 30 % lower than the native forest; while at >15 years it was merely 5 % less than the native forests. The traditional PAFS maintains a steady ecosystem carbon stock while reducing land use related carbon emission and providing additional co-benefits to the communities. Therefore, the traditional PAFS constitute a good opportunity for REDD+. [Display omitted] • The Shannon-Wiener diversity index (H) was the highest in native forests (2.71), and the least in 5–10 years PAFS. • Forest clearing and burning prior to the establishment of PAFS caused a decline of 30 % of the ecosystem C. • The bush density of the pineapple increased with the increase in the PAFS age. • At >15 years of PAFS ecosystem carbon loss was merely 5 % compared to native forests. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
03014797
Volume :
298
Database :
Academic Search Index
Journal :
Journal of Environmental Management
Publication Type :
Academic Journal
Accession number :
152427519
Full Text :
https://doi.org/10.1016/j.jenvman.2021.113470