Frontiers in Environmental Microbiology

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Scaling up an Indigenous Tree (Gmelina arborea) Based Agroforestry Systems in India

Received: 20 October 2017    Accepted: 30 November 2017    Published: 08 January 2018
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Abstract

Scaling up of Ghamar (Gmelina arborea Roxb.) based agroforestry in India has a prime concern as it is a native species which has potential to replace and act as a substitute for other exotic timber trees in the country. Gmelina is gaining momentum at the present time; besides fulfilling the demand of wood and timber in the current scenario of industrial agroforestry and also fulfilling other domestic needs. This fast growing woody species has got increasing attention in India because of its exemplified diverse values due to its indigenous origin, quality wood, easy and quick remunerative returns. The present paper highlights the multifaceted volume of Gmelina in agroforestry including carbon sequestration potential, manifold importance and desirability of under home gardens and agroforestry systems. In addition, the paper also points out the existing constraints and limitations which are responsible in fading it’s the large scale production in agroforestry and farm forestry.

DOI 10.11648/j.fem.20170306.11
Published in Frontiers in Environmental Microbiology (Volume 3, Issue 6, December 2017)
Page(s) 73-77
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This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Gmelina arborea, Homegardens, Intercrops, Agroforestry

References
[1] ISFR. 2013. India State of Forest Report, Forest Survey of India, Dehradun, Government of India.
[2] Tewari, D. N. (1995). A Monograph on Gamhari (Gmelina arborea Roxb.), International Book distributors, Dehradun.
[3] Balu, A., Rajarishi, R., Thangapandian, K., Senthilkumar, P., and Murugesan, S. (2015). Management of important insect pests of Gmelina arborea under agroforestry system. Advances in Tree Seed Science and Silviculture, 360.
[4] Kumar, A. (2007). Growth Performance and Variability in Different Clones of Gmelina arborea (ROXB.). Silvae Genetica, 56(1), 32-35.
[5] Dvorak, W. S. (2004). World view of Gmelina arborea: opportunities and challenges. New Forests, 28(2), 111-126.
[6] Hamilton, P. C., Chandler, L. R., Brodie, A. W., and Cornelius, J. P. 1998. A financial analysis of a small scale Gmelina arborea Roxb. improvement program in Costa Rica. New Forests, 16: 89–99.
[7] Roshetko, J. M., Mulawarman and Purnomosidhi, P. 2003. Gmelina arborea- A viable species for smallholder tree farming in Indonesia?, Recent Advances with Gmelina arborea (eds. W. S. Dvorak, G. R. Hodge, W. C. Woodbridge and J. L. Romero). CD-ROMCORE, North Carolina State University. Raleigh, NC. USA.
[8] Ujjwala, D., Rambabu, M., and Swamy, N. R. (2017). Clonal propagation of forest tree Gmelina arborea Roxb. Journal of Microbiology and Biotechnology Research, 3(2), 16-18.
[9] Gonzalez Rubio, H. (2009). Stand structure development effects on wood quality of Melina (Gmelina arborea roxb.) (Doctoral dissertation, University of Missouri--Columbia).
[10] Kijkar, S. (2004). Gmelina arborea Rox.. in Part II—Species Descriptions, Association of South-East Asian Nations (ASEAN), Forest Tree Seed Center, Thailand, 476-478. https://rngr.net/publications/ttsm/species/PDF.2004-03-03.1531/at_download/file
[11] Saralch, H., and Singh, S. P. (2013). Determining maturity indices for time of seed collection in Gmelina arborea under Punjab conditions. International Journal of Farm Sciences, 3(2), 90-94.
[12] Zeaser D 1998. Vegetative propagation of Gmelina (Gmelina arborea Roxb). In: CAMCORE. International Tree Breeding Short Course Book, North Carolina State University, Raleigh, North Carolina, USA, pp 27-34.
[13] Saravanan, S. (2012). Constraints Faced by the Farmers in Adoption of Gmelina arborea–A Case Study in Tamil Nadu. Plant protection, 8(06.67), 13.
[14] Pathala, D., Harini, A., and Hegde, P. L. (2015). A review on gambhari (Gmelina arborea Roxb.). Journal of Pharmacognosy and Phytochemistry, 4(2): 127-132.
[15] Deepthi, P.; Harini, A. and Hegde, P. L. (2015). A Review on Gambhari (Gmelina arborea Roxb.). Journal of Pharmacognosy And Phytochemistry, 4 (2): 127-132.
[16] NATP, (1999-2004). National agricultural technology project, rainfed agro ecosystem, production system research. Central Research Institute for dry land agriculture, Hyderabad. http://www.crida.in/PSR%2099-04.pdf
[17] Bohre, P., Chaubey, O. P. and Singhal, P. K. 2013. Biomass Accumulation and Carbon Sequestration in Tectona grandis Linn. f. and Gmelina arborea Roxb. International Journal of Bio-Science and Bio-Technology, 5 (3):153-174.
[18] Swamy, S. L. and Mishra, A. 2014. Comparison of Biomass and C Storage in Three Promising Fast Growing Tree Plantations under Agroforestry System in Sub-humid Tropics of Chhattisgarh, India, Universal Journal of Agricultural Research 2(8): 284-296.
[19] Ojeniyi, S. O., and Agbede, O. O. (1980). Agronomic assessment of the effect of inter-planting Gmelina arborea with food crops. Turrialba, 30(3), 290-293.
[20] Miole, R. N., Visco, R. G., Magcale-Macandog, D. B., Abucay, E. R., Gascon, A. F., and Castillo, A. S. (2011). Growth performance, crop productivity, and water and nutrient flows in Gmelina arborea Roxb.-Zea mays hedgerow systems in Southern Philippines. Philippine Journal of Crop Science, 36(3), 34-44.
[21] Swamy, S. L., and Puri, S. (2005). Biomass production and C-sequestration of Gmelina arborea in plantation and agroforestry system in India. Agroforestry systems, 64(3), 181-195.
[22] Negi, J. D. S., Bahuguna, V. K., and Sharma, D. C. (1990). Biomass production and distribution of nutrients in 20 years old teak (Tectona grandis) and gamar (Gmelina arborea) plantation [s] in Tripura. Indian Forester, 116(9), 681-686.
[23] Vanlalngurzauva, T., Dhara, P. K., Banerjee, H., and Maiti, S. (2010). Growth and productivity of different intercrops grown under gamhar (Gmelina arborea) based agroforestry system. Indian Journal of Agroforestry, 12(1), 105-108.
[24] Swamy, S. L., Bharitya, J. K., and Alka, M. (2008). Growth, biomass, nutrient storage and crop productivity under different tree spacings of Gmelina arborea in agrisilviculture system. Indian Journal of Agroforestry, 10(2), 3-9.
[25] Swamy, S. L., Mishra, A., and Puri, S. (2003). Biomass production and root distribution of Gmelina arborea under an agrisilviculture system in subhumid tropics of Central India. New Forests, 26(2), 167-186.
[26] Linger, E. (2014). Agro-ecosystem and socio-economic role of homegarden agroforestry in Jabithenan District, North-Western Ethiopia: implication for climate change adaptation. SpringerPlus, 3(1), 154.
[27] Debbarma, J., Deb, D., and Deb, S. (2016). Tree diversity and sociocultural significance of homegardens in the Baramura range, Tripura, North-east India. Forests, Trees and Livelihoods, 25(1), 33-40.
[28] Subba, L. M., Pala, N. A., Shukla, G., and Chakravarty, S. (2016). Inventory of flora in home gardens of sub-humid tropical landscapes, West Bengal, India. Int. J. of Usuf. Mngt, 17(1), 47-54.
[29] Suba, M., Ayun Vinuba, A., and Kingston, C. (2014). Vascular Plant Diversity in the Tribal Homegardens of Kanyakumari Wildlife Sanctuary, Southern Western Ghats. Bioscience Discovery, 5(1), 99-111.
[30] Ajeesh, R., Kumar, V., and Kunhamu, T. K. (2015). Floristic Analysis of Peri-Urban Homegardens of Southern Kerala, India. Indian Journal of Ecology, 42(2), 3-36.4.
[31] Datta, T., Patra, A. K., and Dastidar, S. G. (2014). Medicinal plants used by tribal population of Coochbehar district, West Bengal, India–an ethnobotanical survey. Asian Pacific journal of tropical biomedicine, 4, S478-S482.
[32] Niyas, P., Kunhamu, T. K., Ali, S. K., Jothsna, C., Aneesh, C. R., Kumar, N., and Sukanya, R. (2016). Functional diversity in the selected urban and peri-urban homegardens of Kerala, India. Indian Journal of Agroforestry, 18(1), 39-46.
[33] Sahoo, U. K. 2013. Allelopathic studies of understorey weeds by Agroforestry trees in home gardens of Mizoram, Journal of Experimental Biology and Agricultural Sciences, 1(4): 248-257.
[34] Rai, D., Dobriyal, M. J. R and Mehra, T. S, (2004). ‘Control of Stem Borer in plantations of Gmelina arborea’. MFP News, Vol. XIV (2): 11.
[35] arman, A (2014). A brief perspective on Gmelina tree insect pest Craspedonta leayana. Journal of Entomology and Zoology Studies 2014; 2 (4): 276-278.
[36] Lamprecht H. 1989. Silviculture in the Tropics: Tropical Forest Ecosystem and their Tree Species–Possibilities and Methods for Long-term Utilization. Hamburg, 269 p.
Author Information
  • Indian Institute of Forest Management, Nehru Nagar, Bhopal, India

  • Indian Institute of Forest Management, Nehru Nagar, Bhopal, India

  • Indian Institute of Forest Management, Nehru Nagar, Bhopal, India

  • Department of Silviculture and Agroforestry, College of Forestry, Navsari Agricultural University, Navsari, India

  • Indian Institute of Forest Management, Nehru Nagar, Bhopal, India

  • Indian Institute of Forest Management, Nehru Nagar, Bhopal, India

Cite This Article
  • APA Style

    Pooja Verma, Arvind Bijalwan, Anil Kumar Shankhwar, Manmohan JR Dobriyal, Vinu Jacob, et al. (2018). Scaling up an Indigenous Tree (Gmelina arborea) Based Agroforestry Systems in India. Frontiers in Environmental Microbiology, 3(6), 73-77. https://doi.org/10.11648/j.fem.20170306.11

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    ACS Style

    Pooja Verma; Arvind Bijalwan; Anil Kumar Shankhwar; Manmohan JR Dobriyal; Vinu Jacob, et al. Scaling up an Indigenous Tree (Gmelina arborea) Based Agroforestry Systems in India. Front. Environ. Microbiol. 2018, 3(6), 73-77. doi: 10.11648/j.fem.20170306.11

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    AMA Style

    Pooja Verma, Arvind Bijalwan, Anil Kumar Shankhwar, Manmohan JR Dobriyal, Vinu Jacob, et al. Scaling up an Indigenous Tree (Gmelina arborea) Based Agroforestry Systems in India. Front Environ Microbiol. 2018;3(6):73-77. doi: 10.11648/j.fem.20170306.11

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  • @article{10.11648/j.fem.20170306.11,
      author = {Pooja Verma and Arvind Bijalwan and Anil Kumar Shankhwar and Manmohan JR Dobriyal and Vinu Jacob and Satendra Kumar Rathaude},
      title = {Scaling up an Indigenous Tree (Gmelina arborea) Based Agroforestry Systems in India},
      journal = {Frontiers in Environmental Microbiology},
      volume = {3},
      number = {6},
      pages = {73-77},
      doi = {10.11648/j.fem.20170306.11},
      url = {https://doi.org/10.11648/j.fem.20170306.11},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.fem.20170306.11},
      abstract = {Scaling up of Ghamar (Gmelina arborea Roxb.) based agroforestry in India has a prime concern as it is a native species which has potential to replace and act as a substitute for other exotic timber trees in the country. Gmelina is gaining momentum at the present time; besides fulfilling the demand of wood and timber in the current scenario of industrial agroforestry and also fulfilling other domestic needs. This fast growing woody species has got increasing attention in India because of its exemplified diverse values due to its indigenous origin, quality wood, easy and quick remunerative returns. The present paper highlights the multifaceted volume of Gmelina in agroforestry including carbon sequestration potential, manifold importance and desirability of under home gardens and agroforestry systems. In addition, the paper also points out the existing constraints and limitations which are responsible in fading it’s the large scale production in agroforestry and farm forestry.},
     year = {2018}
    }
    

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    AU  - Pooja Verma
    AU  - Arvind Bijalwan
    AU  - Anil Kumar Shankhwar
    AU  - Manmohan JR Dobriyal
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    AB  - Scaling up of Ghamar (Gmelina arborea Roxb.) based agroforestry in India has a prime concern as it is a native species which has potential to replace and act as a substitute for other exotic timber trees in the country. Gmelina is gaining momentum at the present time; besides fulfilling the demand of wood and timber in the current scenario of industrial agroforestry and also fulfilling other domestic needs. This fast growing woody species has got increasing attention in India because of its exemplified diverse values due to its indigenous origin, quality wood, easy and quick remunerative returns. The present paper highlights the multifaceted volume of Gmelina in agroforestry including carbon sequestration potential, manifold importance and desirability of under home gardens and agroforestry systems. In addition, the paper also points out the existing constraints and limitations which are responsible in fading it’s the large scale production in agroforestry and farm forestry.
    VL  - 3
    IS  - 6
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