The role of forests in the mitigation of global climate change: Emprical evidence from Tanzania

The role of forests in the mitigation of global climate change: Emprical evidence from Tanzania

The contribution of forests in regulating climate relies on the extent of forests. Therefore, mapping and monitoring changes of forests are fundamental and should be accurate. This study therefore assessed the potential role of forests in Tanzania in mitigation of climate change by (1) assessing ext...

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Main Authors: Marco Andrew Njana, Boniface Mbilinyi, Zahabu Eliakimu
Format: Article
Language:English
Published: Elsevier 2021-08-01
Series:Environmental Challenges
Subjects:
Carbon sequestration
Carbon sink
Ecosystem service
Land use and land cover change
Mapping uncertainties
REDD+
Online Access:http://www.sciencedirect.com/science/article/pii/S2667010021001499
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spelling doaj-b7414a33ff5541a9b3f5e29a839085612021-07-27T04:09:47ZengElsevierEnvironmental Challenges2667-01002021-08-014100170The role of forests in the mitigation of global climate change: Emprical evidence from TanzaniaMarco Andrew Njana0Boniface Mbilinyi1Zahabu Eliakimu2Wildlife Conservation Society – Tanzania Program, P.O. Box 922, Zanzibar, Tanzania; Tanzania Forest Services Agency, Ministry of Natural Resources and Tourism, P.O. Box 40832, Dar es Salaam, Tanzania; Corresponding author at: Wildlife Conservation Society – Tanzania Program, P.O. Box 922, Zanzibar, Tanzania.Sokoine University of Agriculture (SUA), P.O. Box 3003, Morogoro, TanzaniaSokoine University of Agriculture (SUA), P.O. Box 3003, Morogoro, Tanzania; National Carbon Monitoring Centre (NCMC) of Tanzania, P.O. Box 3009, Morogoro, TanzaniaThe contribution of forests in regulating climate relies on the extent of forests. Therefore, mapping and monitoring changes of forests are fundamental and should be accurate. This study therefore assessed the potential role of forests in Tanzania in mitigation of climate change by (1) assessing extent of forests, deforestation, and accounted for their mapping errors, (2) estimating quantities of CO2 stored and sequestered by forests, (3) estimating quantities of CO2 emitted due to loss of forests. The study also hypothesized that, forests in Tanzania are net sink of CO2. Findings revealed that, the extent of forests for Mainland Tanzania in 2013 was 46,239,549 ± 1,400,514 ha while deforestation (2002–2013) was 469,016 ± 57,272 ha year−1. It was further observed that, the use of unbiased estimator to account for errors in classification of forests and deforestation improved the forest extent and deforestation estimates significantly. Total carbon stored by forests was estimated at 5.8 Gigatons CO2e while the total quantities of carbon sequestered by forest remaining forests for the period 2002–2013 was about -0.4 Gigatons CO2e year−1. Besides, carbon emissions due to deforestation (2002–2013) was estimated at 0.04 Gigatons CO2e year−1. The current level of emissions from deforestation is high and needs to be addressed urgently. Despite that emissions from deforestation are high, the study demonstrates in quantitative terms that forests in Tanzania were net sink of CO2 (-0.3 Gigatons CO2e year−1) hence regulate and stabilise global climate system by reducing the concentration of atmospheric CO2 through carbon sequestration. Improved land use planning, enhanced inter-sectoral coordination, upscaling of participatory forest management particularly in village forests, enhanced performance of institutions mandated to manage forest resources and taking advantages of climate finance opportunities are recommended as means of achieving emission reduction and sustaining the role of forests as carbon sinks.http://www.sciencedirect.com/science/article/pii/S2667010021001499Carbon sequestrationCarbon sinkEcosystem serviceLand use and land cover changeMapping uncertaintiesREDD+
collection DOAJ
language English
format Article
sources DOAJ
author Marco Andrew Njana
Boniface Mbilinyi
Zahabu Eliakimu
spellingShingle Marco Andrew Njana
Boniface Mbilinyi
Zahabu Eliakimu
The role of forests in the mitigation of global climate change: Emprical evidence from Tanzania
Environmental Challenges
Carbon sequestration
Carbon sink
Ecosystem service
Land use and land cover change
Mapping uncertainties
REDD+
author_facet Marco Andrew Njana
Boniface Mbilinyi
Zahabu Eliakimu
author_sort Marco Andrew Njana
title The role of forests in the mitigation of global climate change: Emprical evidence from Tanzania
title_short The role of forests in the mitigation of global climate change: Emprical evidence from Tanzania
title_full The role of forests in the mitigation of global climate change: Emprical evidence from Tanzania
title_fullStr The role of forests in the mitigation of global climate change: Emprical evidence from Tanzania
title_full_unstemmed The role of forests in the mitigation of global climate change: Emprical evidence from Tanzania
title_sort role of forests in the mitigation of global climate change: emprical evidence from tanzania
publisher Elsevier
series Environmental Challenges
issn 2667-0100
publishDate 2021-08-01
description The contribution of forests in regulating climate relies on the extent of forests. Therefore, mapping and monitoring changes of forests are fundamental and should be accurate. This study therefore assessed the potential role of forests in Tanzania in mitigation of climate change by (1) assessing extent of forests, deforestation, and accounted for their mapping errors, (2) estimating quantities of CO2 stored and sequestered by forests, (3) estimating quantities of CO2 emitted due to loss of forests. The study also hypothesized that, forests in Tanzania are net sink of CO2. Findings revealed that, the extent of forests for Mainland Tanzania in 2013 was 46,239,549 ± 1,400,514 ha while deforestation (2002–2013) was 469,016 ± 57,272 ha year−1. It was further observed that, the use of unbiased estimator to account for errors in classification of forests and deforestation improved the forest extent and deforestation estimates significantly. Total carbon stored by forests was estimated at 5.8 Gigatons CO2e while the total quantities of carbon sequestered by forest remaining forests for the period 2002–2013 was about -0.4 Gigatons CO2e year−1. Besides, carbon emissions due to deforestation (2002–2013) was estimated at 0.04 Gigatons CO2e year−1. The current level of emissions from deforestation is high and needs to be addressed urgently. Despite that emissions from deforestation are high, the study demonstrates in quantitative terms that forests in Tanzania were net sink of CO2 (-0.3 Gigatons CO2e year−1) hence regulate and stabilise global climate system by reducing the concentration of atmospheric CO2 through carbon sequestration. Improved land use planning, enhanced inter-sectoral coordination, upscaling of participatory forest management particularly in village forests, enhanced performance of institutions mandated to manage forest resources and taking advantages of climate finance opportunities are recommended as means of achieving emission reduction and sustaining the role of forests as carbon sinks.
topic Carbon sequestration
Carbon sink
Ecosystem service
Land use and land cover change
Mapping uncertainties
REDD+
url http://www.sciencedirect.com/science/article/pii/S2667010021001499
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