Shade tree diversity and aboveground carbon stocks in Theobroma cacao agroforestry systems: implications for REDD+ implementation in a West African cacao landscape

Shade tree diversity and aboveground carbon stocks in Theobroma cacao agroforestry systems: implications for REDD+ implementation in a West African cacao landscape

Abstract Background The promotion of cacao agroforestry is one of the ways of diversifying farmer income and creating incentives through their inclusion in REDD+ interventions. We estimated the aboveground carbon stocks in cacao and shade trees, determined the floristic diversity of shade trees and...

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Bibliographic Details
Main Authors: Evans Dawoe, Winston Asante, Emmanuel Acheampong, Paul Bosu
Format: Article
Language:English
Published: BMC 2016-08-01
Series:Carbon Balance and Management
Subjects:
Shade trees
Theobroma cacao
Species richness
Diversity indices
Carbon stocks
REDD+
Online Access:http://link.springer.com/article/10.1186/s13021-016-0061-x
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spelling doaj-90a07f852a5b43f5902a54d03caab6d72020-11-24T21:04:43ZengBMCCarbon Balance and Management1750-06802016-08-0111111310.1186/s13021-016-0061-xShade tree diversity and aboveground carbon stocks in Theobroma cacao agroforestry systems: implications for REDD+ implementation in a West African cacao landscapeEvans Dawoe0Winston Asante1Emmanuel Acheampong2Paul Bosu3Faculty of Renewable Natural Resources (FRNR), Kwame Nkrumah University of Science and Technology (KNUST)Faculty of Renewable Natural Resources (FRNR), Kwame Nkrumah University of Science and Technology (KNUST)Faculty of Renewable Natural Resources (FRNR), Kwame Nkrumah University of Science and Technology (KNUST)Forestry Research Institute of Ghana (FORIG), Council for Scientific and Industrial Research (CSIR)Abstract Background The promotion of cacao agroforestry is one of the ways of diversifying farmer income and creating incentives through their inclusion in REDD+ interventions. We estimated the aboveground carbon stocks in cacao and shade trees, determined the floristic diversity of shade trees and explored the possibility of implementing REDD+ interventions in cacao landscapes. Using replicated multi-site transect approach, data were collected from nine 1-ha plots established on 5 km long transects in ten cacao growing districts in Ghana West Africa. Biomass of cacao and shade trees was determined using allometric equations. Results One thousand four hundred and one (1401) shade trees comprising 109 species from 33 families were recorded. Total number of species ranged from 34 to 49. Newbouldia laevis (Bignoniacea) was the most frequently occurring specie and constituted 43.2 % of all shade trees. The most predominant families were Sterculiaceae and Moraceae (10 species each), followed by Meliaceae and Mimosaceae (8 species each) and Caesalpiniacaea (6 species). Shannon diversity indices (H’, Hmax and J’) and species richness were low compared to other similar studies. Shade tree densities ranged from 16.2 ± 3.0 to 22.8 ± 1.7 stems ha−1 and differed significantly between sites. Carbon stocks of shade trees differed between sites but were similar in cacao trees. The average C stock in cacao trees was 7.45 ± 0.41 Mg C ha−1 compared with 8.32 ± 1.15 Mg C ha−1 in the shade trees. Conclusions Cacao landscapes in Ghana have the potential of contributing to forest carbon stocks enhancement by increasing the stocking density of shade trees to recommended levels.http://link.springer.com/article/10.1186/s13021-016-0061-xShade treesTheobroma cacaoSpecies richnessDiversity indicesCarbon stocksREDD+
collection DOAJ
language English
format Article
sources DOAJ
author Evans Dawoe
Winston Asante
Emmanuel Acheampong
Paul Bosu
spellingShingle Evans Dawoe
Winston Asante
Emmanuel Acheampong
Paul Bosu
Shade tree diversity and aboveground carbon stocks in Theobroma cacao agroforestry systems: implications for REDD+ implementation in a West African cacao landscape
Carbon Balance and Management
Shade trees
Theobroma cacao
Species richness
Diversity indices
Carbon stocks
REDD+
author_facet Evans Dawoe
Winston Asante
Emmanuel Acheampong
Paul Bosu
author_sort Evans Dawoe
title Shade tree diversity and aboveground carbon stocks in Theobroma cacao agroforestry systems: implications for REDD+ implementation in a West African cacao landscape
title_short Shade tree diversity and aboveground carbon stocks in Theobroma cacao agroforestry systems: implications for REDD+ implementation in a West African cacao landscape
title_full Shade tree diversity and aboveground carbon stocks in Theobroma cacao agroforestry systems: implications for REDD+ implementation in a West African cacao landscape
title_fullStr Shade tree diversity and aboveground carbon stocks in Theobroma cacao agroforestry systems: implications for REDD+ implementation in a West African cacao landscape
title_full_unstemmed Shade tree diversity and aboveground carbon stocks in Theobroma cacao agroforestry systems: implications for REDD+ implementation in a West African cacao landscape
title_sort shade tree diversity and aboveground carbon stocks in theobroma cacao agroforestry systems: implications for redd+ implementation in a west african cacao landscape
publisher BMC
series Carbon Balance and Management
issn 1750-0680
publishDate 2016-08-01
description Abstract Background The promotion of cacao agroforestry is one of the ways of diversifying farmer income and creating incentives through their inclusion in REDD+ interventions. We estimated the aboveground carbon stocks in cacao and shade trees, determined the floristic diversity of shade trees and explored the possibility of implementing REDD+ interventions in cacao landscapes. Using replicated multi-site transect approach, data were collected from nine 1-ha plots established on 5 km long transects in ten cacao growing districts in Ghana West Africa. Biomass of cacao and shade trees was determined using allometric equations. Results One thousand four hundred and one (1401) shade trees comprising 109 species from 33 families were recorded. Total number of species ranged from 34 to 49. Newbouldia laevis (Bignoniacea) was the most frequently occurring specie and constituted 43.2 % of all shade trees. The most predominant families were Sterculiaceae and Moraceae (10 species each), followed by Meliaceae and Mimosaceae (8 species each) and Caesalpiniacaea (6 species). Shannon diversity indices (H’, Hmax and J’) and species richness were low compared to other similar studies. Shade tree densities ranged from 16.2 ± 3.0 to 22.8 ± 1.7 stems ha−1 and differed significantly between sites. Carbon stocks of shade trees differed between sites but were similar in cacao trees. The average C stock in cacao trees was 7.45 ± 0.41 Mg C ha−1 compared with 8.32 ± 1.15 Mg C ha−1 in the shade trees. Conclusions Cacao landscapes in Ghana have the potential of contributing to forest carbon stocks enhancement by increasing the stocking density of shade trees to recommended levels.
topic Shade trees
Theobroma cacao
Species richness
Diversity indices
Carbon stocks
REDD+
url http://link.springer.com/article/10.1186/s13021-016-0061-x
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AT emmanuelacheampong shadetreediversityandabovegroundcarbonstocksintheobromacacaoagroforestrysystemsimplicationsforreddimplementationinawestafricancacaolandscape
AT paulbosu shadetreediversityandabovegroundcarbonstocksintheobromacacaoagroforestrysystemsimplicationsforreddimplementationinawestafricancacaolandscape
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