Article Sidebar

PDF
Date Published: 15/03/2024
Abstract Views: 94
Views PDF: 49
Issue
Vol. 34 No. 1 (2024)
Section
Research article
How to Cite
Diep, T. M. H., Gurgand, J., Pham, B. V., Nguyen, K. D., Pignal, M., & Lebbe, R. V. (2024). Creation of the Route of Bamboo, a Contribution to Net Zero by 2050 in Vietnam. JST: Engineering And Technology For Sustainable Development, 34(1), 43-51. https://jst.vn/index.php/etsd/article/view/26

Creation of the Route of Bamboo, a Contribution to Net Zero by 2050 in Vietnam

Thi My Hanh Diep1,2, , Jacques Gurgand1, Bach Viet Pham3, Khac Dieu Nguyen2, Marc Pignal4, Régine Vignes Lebbe4
1 Viet Nam National University Ho Chi Minh City, Ho Chi Minh City, Vietnam
2 Phu An Bamboo Village- Center Research for Natural Conservation, Binh Duong province, Vietnam
3 Ho Chi Minh City Space Technology Application Center, Ho Chi Minh City, Vietnam
4 Institut de Systématique, Évolution, Biodiversité ISYEB - UMR 7205 (Museum National of Natural History, Sorbonne University, CNRS, EPHE, UA), France

Main Article Content

Abstract

Laos and Cambodia, and was awarded the UNDP Equatorial Prize in 2010. This ex situ conservation not only provides data for basic research and preserves biodiversity resources, but also contributes to actions on CO2 to reduce the greenhouse effect in climate change and create sustainable livelihoods for the community. From the Phu An Bamboo village, the "Bamboo Route" has been built since 2016 from the north to the south of Viet Nam, with the aim of multiplying bamboo in situ conservation sites, associated with research programs and public awareness actions on the importance and environmental benefits of bamboos. Along the bamboo route, an ex situ conservation site has been developed at Dong Thap with plants of 67 different vernacular species, another at Phan Rang, in the arid region, with 62 species, and a third at Dak Nong, where the climate is more favourable, with 12 different vernacular species from the in situ conservation site at Chieng Ban, Son La, where 19 vernacular species have been recorded. Thanks to its fast-growing characteristics and large biomass production, bamboo plays an important role in carbon sequestration. Research to mesure CO2 absorption was done in three different habitats on three different bamboo species. The CO2 absorption capacity of Bambusa blumeana Schultes in Gao Giong, Dong Thap province, indicates an important role of this thorny bamboo under climate change conditions. On the " Route of Bamboo", we studied also the surface area of bare soil from north to south, except in the Mekong Delta, we can plant more than 200,000 ha of thorny bamboo to complete the existing surface area of 1.5 million ha which could contribute 30% of Viet Nam’s CO2 absorption.


This enables us to estimate how planting 50% of these areas could contribute to Viet Nam’s Net 0 2050 target.

Keywords

Carbone absorption, conservation, environmental benefits, Bamboo Route

Article Details

References

[1] M. H. Diep, M. Pignal, J. Gurgand, S. Dransfield, N.Khac Dieu; N. Thi Bich Loan, L. Ngoc Sam, R.Vignes- Lebbe. Collection of bamboo from Viet Nam. Conservation, information and valorization for sustainable development, in Biodiversity of intertropical ecosystems. Knowledge, sustainable management and valorization. IRD Editions. Chapter 7, 113-123.
[2] M. H. Diep, T.B.L. Nguyễn, H.P. Nguyễn, K.D.Nguyễn, T.K. Phạm, B.V. Phạm. Study on genetic diversity of Vietnamese bamboo populations and their application value. National University key project. 2012, 187 pp.
[3] P.D. Nguyen, T.L.Q. Le, M.H. Diep, T.T.K. Nguyen. Applications of the bamboo crop for environmental Engineering: prospective natural – Based solutions. In Proc. World Bamboo Worshop 4, Bamboo for Green Life and Sustainable development. Ho Chi Minh Ville, Vietnam, 2022, pp. 109- 127.
[4] Devi, A.S., Singh, K.S. Carbon storage and sequestration potential in aboveground biomass of bamboos in North East India. Sci Rep 11, 837 (2021). https://doi.org/10.1038/s41598-020-80887-w
[5] M.H. Diep, K.D. Nguyễn , T.B.L. Nguyễn , T. Đặng Trần , D.M. Nguyễn , T.V.V. Đỗ , N.A. Nguyễn. The role of bamboo in the face of climate change in the Mekong Delta, presented at the Conf. National Research Guidance and Training for Climate Change in Mekong Delta, Can Tho University, Vietnam, 2013. pp 111-117.
[6] B.V. Pham. Research on bare land and bare hill in the North and Central South of Viet Nam. Scientific report of National University of HCM city, 2023, 52 pp.
[7] Arild Angelsen, Henning Baur, Jonathan Haskett, Markku Kanninen, Rodel Lasco, Bruno Locatelli, Daniel Murdiyarso, Levania Santoso, Patrick Smith, Brent Swallow, Maine van Noordwijk, Sheila Wertz- Kanounnikoff. Forests and Climate Change Toolbox: http://www.cifor.org/fctoolbox/
[8] E. G. Camus, A. Camus. Gramin : In General Flora of Indo-China, H. Lecomte H. ed., 1913, 203–650.
[9] T.T.P. Nguyen. Study of biomass to assess CO2 absorption capacity of Luong (Dendrocalamus membranaceus Munro) in Phu An Bamboo Village. M.S. thesis, Univ. of Sciences, HCMV, Vietnam, 2010.
[10] M.H. Diep, K.D. Nguyen, B.V. Pham, B.L. Nguyen, J. Gurgand. 2013. Study of biodiversity in two niches modeling homogenous and mixed bamboos and their roles under the impact of climate change. Projet de recherche clé de l’Université Nationale de HCMC. 204 pp.
[11] Bhishma P. Subedi, Shiva Shankar Pandey, Ajay Pandey, Eak Bahadur Rana, Sanjeeb Bhattarai, Tibendra Raj Banskota, Shambhu Charmakar, Rijan Tamrakar (2010). Forest Carbon Stock Measurement: Guidelines for measuring carbon stocks in community –managed forests. Norwegian Agency for Development Cooperation (NORAD). 69 pp.
[12] Pearson T. R. H, Brown. S and Ravindranath N. H (2005). Integrating carbon benefit estimates into GEF Projects. United Nations Development Program Global Environment Facility, USA, 57 pp.
[13] H. Bao, T.A. Pham. Estimating CO2 sequestration in natural broad-leaved evergreen forests in Vietnam. Asia-Pacific Agroforestry Newsletter – APANews, FAO, SEANAFE; No.32, May 2008, ISSN 0859-9742.
[14] Huy, B., Hung, V., Huong, N. T. T., Ly, C. T., & Dinh, N. D. (2012). Tree allometric equations in Evergreen Broadleaf Forests in the South Central Coastal region, Viet Nam, in (Eds) Inoguchi, A. Henry, M. Birigazzi, L. Sola, G. Tree allometric equation development for estimation of forest above-ground biomass in Viet Nam, UN-REDD Programme, Hanoi, Viet Nam. [15] Van Reeuwijk L.P (2002). Procedures for soil analysis. International Soil Reference and Information Centre, Food and Agriculture Organization of the United Nations. 5.1-5.2
[16] H.Bao (2009). CO2 sequestration estimation for the Litsea-casava agroforestry model in Mang Yang District, Gia Lai Province – Central Highlands of Việt Nam. World Agroforestry Center, Southeast Asian Network for Agroforestry Education and Vietnam Network for Agroforestry Education, 45 pp.
[17] UNDP. Phu An bamboo Village. Case study. 2010. [Online] Available: https://www.equatorinitiative.org/wp- content/uploads/2017/05/case_1348150699.pdf.
[18] M. H. Diep, J. Gurgand, R. Vignes - Lebbe, H. P. Nguyen, B. L. Nguyen, A. Haevermans, T. Haevermans, Indochina bamboos: morphological descriptors for identification, Science and Technology Committee, HCM National University Press and Authors, Viet Nam, 2016, ISBN 978-604-73-4238-9. (In French : Bambous d'Indochine: descripteurs morphologiques pour l'identification).
[19] V. Ung, G. Dubus, R. Zaragüeta-Bagils, and R. Vignes-Lebbe, Xper²: introducing e-Taxonomy. Bioinformatics, 2010, 26(5), 703–704. https://doi.org/10.1093/bioinformatics/btp715
[20] R. Vignes Lebbe, P. Chesselet, M. H. Diep, Xper3: New tools for collaborating, training and transmitting knowledge on botanical phenotypes. In UNESCO- Conférence Quels botanistes pour le XXIe siècle? Métiers, enjeux, opportunités et défis, Paris, France, 2014. Available : https://unesdoc.unesco.org/ark:/48223/pf0000243791
[21] M. H. Diep, K.D. Nguyen , N. Hoang, Mechanical test of 50 species of Bamboo in Phu An Bamboo village.
Report scientific for National University of HCM city, 2012, 27 pp.
[22] K. M. Wong, M. H. Diep, Bambusa gurgandii, a new species of bamboo (Poaceae: Bambusoideae) from Viet Nam, Candollea, 70 (2): 211- 218, dec. 2015. https://doi.org/10.15553/c2015v702a6