A new estimate of carbon for Bangladesh forest ecosystems with their spatial distribution and REDD+ implications

Department of Food and Resource Economics (IFRO)

A new estimate of carbon for Bangladesh forest ecosystems with their spatial distribution and REDD+ implications

Research output: Contribution to journal › Letter › Research › peer-review

Standard

A new estimate of carbon for Bangladesh forest ecosystems with their spatial distribution and REDD+ implications. / Mukul, Sharif A.; Biswas, Shekhar R.; Rashid, A. Z. M. Manzoor; Miah, Md. Danesh; Kabir, Md. Enamul; Uddin, Mohammad Belal; Alamgir, Mohammed; Khan, Niaz Ahmed; Sohel, Md. Shawkat Islam; Chowdhury, Mohammad Shaheed Hossain ; Rana, Md. Parvez; Rahman, Syed Ajijur; Khan, Mohammed Abu Sayed Arfin; Hoque, Muhammad Al-Amin .

In: International Journal of Research on Land-use Sustainability, Vol. 1, 2014, p. 33-41.

Research output: Contribution to journal › Letter › Research › peer-review

Harvard

Mukul, SA, Biswas, SR, Rashid, AZMM, Miah, MD, Kabir, ME, Uddin, MB, Alamgir, M, Khan, NA, Sohel, MSI, Chowdhury, MSH, Rana, MP, Rahman, SA, Khan, MASA & Hoque, MA-A 2014, 'A new estimate of carbon for Bangladesh forest ecosystems with their spatial distribution and REDD+ implications', International Journal of Research on Land-use Sustainability, vol. 1, pp. 33-41.

APA

Mukul, S. A., Biswas, S. R., Rashid, A. Z. M. M., Miah, M. D., Kabir, M. E., Uddin, M. B., Alamgir, M., Khan, N. A., Sohel, M. S. I., Chowdhury, M. S. H., Rana, M. P., Rahman, S. A., Khan, M. A. S. A., & Hoque, M. A-A. (2014). A new estimate of carbon for Bangladesh forest ecosystems with their spatial distribution and REDD+ implications. International Journal of Research on Land-use Sustainability, 1, 33-41.

Vancouver

Mukul SA, Biswas SR, Rashid AZMM, Miah MD, Kabir ME, Uddin MB et al. A new estimate of carbon for Bangladesh forest ecosystems with their spatial distribution and REDD+ implications. International Journal of Research on Land-use Sustainability. 2014;1:33-41.

Author

Mukul, Sharif A. ; Biswas, Shekhar R. ; Rashid, A. Z. M. Manzoor ; Miah, Md. Danesh ; Kabir, Md. Enamul ; Uddin, Mohammad Belal ; Alamgir, Mohammed ; Khan, Niaz Ahmed ; Sohel, Md. Shawkat Islam ; Chowdhury, Mohammad Shaheed Hossain ; Rana, Md. Parvez ; Rahman, Syed Ajijur ; Khan, Mohammed Abu Sayed Arfin ; Hoque, Muhammad Al-Amin . / A new estimate of carbon for Bangladesh forest ecosystems with their spatial distribution and REDD+ implications. In: International Journal of Research on Land-use Sustainability. 2014 ; Vol. 1. pp. 33-41.

Bibtex

@article{cbd11d2ede0b49b5a28385b4932357f1,

title = "A new estimate of carbon for Bangladesh forest ecosystems with their spatial distribution and REDD+ implications",

abstract = "In tropical developing countries, reducing emissions from deforestation and forest degradation (REDD+) is becoming an important mechanism for conserving forests and protecting biodiversity. A key prerequisite for any successful REDD+ project, however, is obtaining baseline estimates of carbon in forest ecosystems. Using available published data, we provide here a new and more reliable estimate of carbon in Bangladesh forest ecosystems, along with their geo-spatial distribution. Our study reveals great variability in carbon density in different forests and higher carbon stock in the mangrove ecosystems, followed by in hill forests and in inland Sal (Shorea robusta) forests in the country. Due to its coverage, degraded nature, and diverse stakeholder engagement, the hill forests of Bangladesh can be used to obtain maximum REDD+ benefits. Further research on carbon and biodiversity in under-represented forest ecosystems using a commonly accepted protocol is essential for the establishment of successful REDD+ projects and for the protection of the country{\textquoteright}s degraded forests and for addressing declining levels of biodiversity.",

author = "Mukul, {Sharif A.} and Biswas, {Shekhar R.} and Rashid, {A. Z. M. Manzoor} and Miah, {Md. Danesh} and Kabir, {Md. Enamul} and Uddin, {Mohammad Belal} and Mohammed Alamgir and Khan, {Niaz Ahmed} and Sohel, {Md. Shawkat Islam} and Chowdhury, {Mohammad Shaheed Hossain} and Rana, {Md. Parvez} and Rahman, {Syed Ajijur} and Khan, {Mohammed Abu Sayed Arfin} and Hoque, {Muhammad Al-Amin}",

year = "2014",

language = "English",

volume = "1",

pages = "33--41",

journal = "International Journal of Research on Land-use Sustainability",

issn = "2200-5978",

}

RIS

TY - JOUR

T1 - A new estimate of carbon for Bangladesh forest ecosystems with their spatial distribution and REDD+ implications

AU - Mukul, Sharif A.

AU - Biswas, Shekhar R.

AU - Rashid, A. Z. M. Manzoor

AU - Miah, Md. Danesh

AU - Kabir, Md. Enamul

AU - Uddin, Mohammad Belal

AU - Alamgir, Mohammed

AU - Khan, Niaz Ahmed

AU - Sohel, Md. Shawkat Islam

AU - Chowdhury, Mohammad Shaheed Hossain

AU - Rana, Md. Parvez

AU - Rahman, Syed Ajijur

AU - Khan, Mohammed Abu Sayed Arfin

AU - Hoque, Muhammad Al-Amin

PY - 2014

Y1 - 2014

N2 - In tropical developing countries, reducing emissions from deforestation and forest degradation (REDD+) is becoming an important mechanism for conserving forests and protecting biodiversity. A key prerequisite for any successful REDD+ project, however, is obtaining baseline estimates of carbon in forest ecosystems. Using available published data, we provide here a new and more reliable estimate of carbon in Bangladesh forest ecosystems, along with their geo-spatial distribution. Our study reveals great variability in carbon density in different forests and higher carbon stock in the mangrove ecosystems, followed by in hill forests and in inland Sal (Shorea robusta) forests in the country. Due to its coverage, degraded nature, and diverse stakeholder engagement, the hill forests of Bangladesh can be used to obtain maximum REDD+ benefits. Further research on carbon and biodiversity in under-represented forest ecosystems using a commonly accepted protocol is essential for the establishment of successful REDD+ projects and for the protection of the country’s degraded forests and for addressing declining levels of biodiversity.

AB - In tropical developing countries, reducing emissions from deforestation and forest degradation (REDD+) is becoming an important mechanism for conserving forests and protecting biodiversity. A key prerequisite for any successful REDD+ project, however, is obtaining baseline estimates of carbon in forest ecosystems. Using available published data, we provide here a new and more reliable estimate of carbon in Bangladesh forest ecosystems, along with their geo-spatial distribution. Our study reveals great variability in carbon density in different forests and higher carbon stock in the mangrove ecosystems, followed by in hill forests and in inland Sal (Shorea robusta) forests in the country. Due to its coverage, degraded nature, and diverse stakeholder engagement, the hill forests of Bangladesh can be used to obtain maximum REDD+ benefits. Further research on carbon and biodiversity in under-represented forest ecosystems using a commonly accepted protocol is essential for the establishment of successful REDD+ projects and for the protection of the country’s degraded forests and for addressing declining levels of biodiversity.

M3 - Letter

VL - 1

SP - 33

EP - 41

JO - International Journal of Research on Land-use Sustainability

JF - International Journal of Research on Land-use Sustainability

SN - 2200-5978

ER -

ID: 164137298