The Success of the Small Tea Growers of Sittong Evolving Rural Darjeeling into a Model Small-Scale Organic Tea Cultivation Center

An, Y., Sun, H., Zhang, W., Sun, Y., Li, S., Yu, Z., Yang, R., Hu, T., & Yang, P. (2022). Distinct rhizosphere soil responses to nitrogen in relation to microbial biomass and community composition at initial flowering stages of alfalfa cultivars. Frontiers in Plant Science, 13, 938865. Search in Google Scholar

Bratbak, G., & Dundas, I. (1984). Bacterial dry matter content and biomass estimations. Applied and Environmental Microbiology, 48(4), 755-757. Search in Google Scholar

Bordoloi, P. (2021). Lime application for higher productivity of potato (Solanum tuberosum L.) and managing soil acidity in Ri-Bhoi District of Meghalaya. Indian Journal of Extension Education, 21(2&3), 202. Search in Google Scholar

Chan, Y. (2008). Increasing soil organic carbon of agricultural land. Primefact, 735, 1-5. Search in Google Scholar

Curtis, T. P., & Sloan, W. T. (2005). Exploring microbial diversity-A vast below. Science, 309(5739), 1331-1333. Search in Google Scholar

Cycoń, M., Mrozik, A., & Piotrowska-Seget, Z. (2019). Antibiotics in the soil environment—degradation and their impact on microbial activity and diversity. Frontiers in microbiology, 10, 338. Search in Google Scholar

Das, D., Majumder, S., Sarkar, S., Ghosh, A., Nandi, S., Subba, P., Saha, S., Acharyya, S., Ghosh, B., Chakraborty S., Bhattacharya, M. (2023). Conversion of Potato Fields into Small Tea Plantations at Bhotepatty, Mainaguri: Consequences of This Shifting Agriculture Through Survey and Soil Analysis. Contemporary Agriculture, 72(3-4), 98-106. Search in Google Scholar

Ghosh, A., Majumder, S., Sarkar, S., & Bhattacharya, M. (2022). Insights into physicochemical assessment of shade tree litter biomass in tea plantations of Terai region. International Journal of Sustainable Agricultural Research, 9, 46-54. http://dx.doi.org/10.18488/ijsar.v9i2.2968 Search in Google Scholar

Hannan, A. (2021). Organizational innovations and small tea growers (STGs) in India. http://14.139.171.199:8080/xmlui/bitstream/handle/123456789/547/NRPPD25.pdf Search in Google Scholar

Liddle, K., McGonigle, T., & Koiter, A. (2020). Microbe biomass in relation to organic carbon and clay in soil. Soil Systems, 4(3), 41. Search in Google Scholar

Majumder, S., Ghosh, A., Saha, S., Acharyya, S., Chakraborty, S., Subba, P., Nandi, S., Sarkar, S. & Bhattacharya, M. (2024). In vitro bioactivities and gastrointestinal simulation validate ethnomedicinal efficacy of five fermented kodo-based Himalayan traditional drinks and bioaccessibility of bioactive components. Food Production, Processing and Nutrition, 6(1), 1-23. Search in Google Scholar

Mukherjee, M., Chakraborty, S., Sarkar, S., Saha, S., Majumder, S., Ghosh, A., & Bhattacharya, M. (2020). Soil nutritional status of tea plantations in plains of sub–Himalayan West Bengal, India. Current Agriculture Research Journal, 8(3), 239-246. http://dx.doi.org/10.12944/CARJ.8.3.10 Search in Google Scholar

Nyawade, S. O., Karanja, N. N., Gachene, C. K., Gitari, H. I., Schulte-Geldermann, E., & Parker, M. L. (2019). Short-term dynamics of soil organic matter fractions and microbial activity in smallholder potato-legume intercropping systems. Applied Soil Ecology, 142, 123-135. Search in Google Scholar

Ritchie, G. S. P., & Dolling, P. J. (1985). The role of organic matter in soil acidification. Soil Research, 23(4), 569-576. Search in Google Scholar

Rai, R. P. (2017). Small farmers: locating them in “Darjeeling Tea”. Tea Technological Initiatives. New Delhi, India: New Delhi Publishing Agency, 19-38. Search in Google Scholar

Rama, K., & Dasgupta, M. K. (1987). Population ecology and community structure of plant parasitic nematodes associated with pineapple in West Bengal. Indian Journal of Nematology, 17(2), 264-269. Search in Google Scholar

Rokhmah, D. N., Astutik, D., & Supriadi, H. (2022, June). Cultivation Technology for Drought Stress Mitigation in Tea Plants: A Review. In IOP Conference Series: Earth and Environmental Science (Vol. 1038, No. 1, p. 012015). IOP Publishing. Search in Google Scholar

Saha, S., Acharyya, S., Sarkar, S., & Bhattacharya, M. (2021). Study of tolerance ability in phosphate solubilising microorganisms isolated from tea plantations soil of lower Darjeeling hills. Bulletin of the National Research Centre, 45(1), 109. Search in Google Scholar

Sahu, N., Das, P., Saini, A., Varun, A., Mallick, S. K., Nayan, R., Aggarwal, S. P., Pani, B., Kesharwani, R. & Kumar, A. (2023). Analysis of Tea Plantation Suitability Using Geostatistical and Machine Learning Techniques: A Case of Darjeeling Himalaya, India. Sustainability, 15(13), 10101. Search in Google Scholar

Sarkar, S., Majumder, S., Ghosh, A., Sumedha, S., Acharyya, S., Chakraborty, S., & Bhattacharya, M. (2022). Metabolomic exploration of CTC tea manufacturing waste validates its potentiality as organic fertilizer. Turkish Journal of Food and Agriculture Sciences, 4(2), 41-48. http://dx.doi.org/10.53663/turjfas.1164579. Search in Google Scholar

Sinha, A. (2020), Small tea growers in north Bengal seek land tag. The Telegraph online. Available at: https://www.telegraphindia.com/west-bengal/small-tea-growers-in-north-bengal-seek-land-tag/cid/1800468 (accessed 15.05.2023). Search in Google Scholar

Tan, L., Gu, S., Li, S., Ren, Z., Deng, Y., Liu, Z., Gong, Z., Xiao, W., & Hu, Q. (2019). Responses of microbial communities and interaction networks to different management practices in tea plantation soils. Sustainability, 11(16), 4428. Search in Google Scholar

Walkley, A., & Black, I. A. (1934). An examination of the Degtjareff method for determining soil organic matter, and a proposed modification of the chromic acid titration method. Soil science, 37(1), 29-38. Search in Google Scholar

Yadav, A. N., Kour, D., Kaur, T., Devi, R., Yadav, A., Dikilitas, M., Abdel-Azeem, A. M., Ahluwalia, A. S. & Saxena, A.K. (2021). Biodiversity, and biotechnological contribution of beneficial soil microbiomes for nutrient cycling, plant growth improvement and nutrient uptake. Biocatalysis and Agricultural Biotechnology, 33, 102009. Search in Google Scholar

Yao, Z., Zheng, X., Liu, C., Wang, R., Xie, B., & Butterbach-Bahl, K. (2018). Stand age amplifies greenhouse gas and NO releases following conversion of rice paddy to tea plantations in subtropical China. Agricultural and Forest Meteorology, 248, 386-396. Search in Google Scholar

Langue:: Anglais

Périodicité:: 2 fois par an
Sujets de la revue:: Sciences de la vie, Biotechnologie, Sciences végétales, Écologie

RSS Feed de la revue

The Success of the Small Tea Growers of Sittong Evolving Rural Darjeeling into a Model Small-Scale Organic Tea Cultivation Center

Soumya Majumder

Diksha Gurung

Sahadeb Sarkar

Sudeshna Nandi

Arindam Ghosh

Preeti Subba

Sukanya Acharyya

Sumedha Saha

Sourav Chakraborty

Malay Bhattacharya

Publié en ligne: 31 déc. 2024

Pages: 78 - 94

Reçu: 09 nov. 2023

Accepté: 07 oct. 2024

DOI: https://doi.org/10.2478/plua-2024-0016

Mots cléssmall tea grower, soil, organic farming, organic tea, Darjeeling tea

© 2024 Soumya Majumder et al., published by Sciendo

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

Mots clés
small tea grower, soil, organic farming, organic tea, Darjeeling tea