Hostname: page-component-cd9895bd7-gxg78 Total loading time: 0 Render date: 2024-12-24T00:30:19.407Z Has data issue: false hasContentIssue false

Man's artificial glacier—a way forward toward water harvesting for pre and post sowing irrigation to facilitate early sowing of wheat in cold arid Himalayan deserts of Ladakh

Published online by Cambridge University Press:  02 November 2017

S. R. Dar*
Affiliation:
Krishi Vigyan Kendra(Sher-e-Kashmir University of Agricultural Sciences and Technology of Kashmir), Kargil 194103, Ladakh, India
Chewang Norphel
Affiliation:
Leh Nutrition Project, Leh (Jammu & Kashmir) 194101, Ladakh, India
Mohd Mehdi Akhoon
Affiliation:
Krishi Vigyan Kendra(Sher-e-Kashmir University of Agricultural Sciences and Technology of Kashmir), Kargil 194103, Ladakh, India
K. A. Zargar
Affiliation:
Krishi Vigyan Kendra(Sher-e-Kashmir University of Agricultural Sciences and Technology of Kashmir), Kargil 194103, Ladakh, India
Nazeer Ahmed
Affiliation:
Sher-e-Kashmir University of Agricultural Sciences and Technology of Kashmir (VC, SKUAST-K), Srinagar 190025, India
M. A. Yabgo
Affiliation:
DAO, Department of Agriculture, Kargil 194103, Ladakh, India
K. A. Dar
Affiliation:
Mountain Livestock Research Institute (Sher-e-Kashmir University of Agricultural Sciences and Technology of Kashmir), Manasbal 193504, Kashmir, India
Nazir Hussain
Affiliation:
Krishi Vigyan Kendra(Sher-e-Kashmir University of Agricultural Sciences and Technology of Kashmir), Kargil 194103, Ladakh, India
T. Thomas
Affiliation:
Sam Higginbottom University of Agriculture, Technology and Sciences, A Christian Minority University, Allahabad 211001, Uttar Pradesh, India
Madhulika Singh
Affiliation:
Cereal System Initiative for South Asia, EUP Hub (International Maize and Wheat Improvement Center, India Office), Gorakhpur 273001, Uttar Pradesh, India
Ajay Kumar
Affiliation:
Cereal System Initiative for South Asia, EUP Hub (International Maize and Wheat Improvement Center, India Office), Gorakhpur 273001, Uttar Pradesh, India
Sharafat Hussain
Affiliation:
Ph.D. Scholar (Vegetable Sciences, SKUAST-K)190025, India
Brijesh Kumar
Affiliation:
Tirhut College of Agriculture, Dholi, Soil Science Division (Dr. Rajendra Prasad Central Agricultural University), Muzaffarpur 843121, Bihar, India
Abrar Yasin Baba
Affiliation:
Department of Plant Science, Ambo University, Post Box Number-019, Ambo City, Ethiopia
*
Author for correspondence: S. R. Dar, E-mail: [email protected] and [email protected]

Abstract

Unavailability of irrigation water for early sowing has remained a constant problem in cold arid deserts of Ladakh. In order to get a solution to this problem, a 2-yr farmers’ participatory research trial with best bet agronomic management on artificial glacier water harvesting technology was conducted. The technology involves collecting water from natural glaciers that melt during late December. The water is diverted toward a shed constructed with stone embankments set up at regular intervals. The area is chosen where there is minimum interference of solar radiation, generally between two mountain slopes or ridge that is on the leeward side. The melted water is that melts from the natural glacier impeded by the embankments and get frozen here. This frozen water starts melting in late March and is used for both pre sowing and initial crop water requirement. It also ensures early sowing of wheat by creating additional 45-day window which leads to introduction of long- and medium-duration wheat varieties to replace decades old locally grown short-duration varieties. The work was initiated with a benchmark survey of 100 farmers to get an understanding of present irrigation scenario, crop management practices and date of sowing. Data from 99 farmer participating trial of wheat conducted after or from bench mark survey clearly indicated that the effect of water shortage can be seen on yield and yield attributing characters due to unavailability of pre sowing irrigation and water requirement at imperative growth stages and may also lead to terminal heat stress in wheat crop. Out of total number of irrigations applied, initial two irrigations can be compensated by artificial glacier water harvesting technique, leading to a revolution in the agriculture scenario of the tribal population by introduction of long- and medium-duration wheat varieties in cold arid desert of Ladakh for the very first time. It was observed that wheat seeding done in first fortnight of April gave better yields in comparison to late seeded wheat. Moreover, the long-duration varieties (LDVs) or medium-duration varieties (MDVs) sown under late condition gave better yield in comparison to locally grown short-duration varieties sown at same time. Yield potential of LDVs and MDVs of wheat under late sowing was found quite low in comparison to early-sown wheat, still when compared with the performance of locally grown wheat the yields were more even if the local varieties were sown early. The outcome of this study will help the farmers of tribal, cold arid community in harvesting better wheat yields by timely sowing of the wheat crop accompanied with better bet agronomic management practices. Government initiative is further required to ensure better outreach of complete crop management strategies to the tribal farming community of the region in order to ensure food security and improve their socioeconomic status.

Type
Research Paper
Copyright
Copyright © Cambridge University Press 2017 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Ali, MA, Ali, M, Sattar, M and Ali, L (2010) Sowing date effect on yield of different wheat varieties. Journal of Agricultural Research 48(2), 157162.Google Scholar
Bagla, P (2001) ‘Artificial Glaciers’ Aid Farmers in Himalayas. National Geographic News, Oct 28, 2010. Available at http://news.nationalgeographic.com/news/2001/08/0830_artglacier.htmlGoogle Scholar
Bajracharya, SR and Shrestha, B (2011) The Status of Glaciers in the Hindu Kush-Himalayan Region. Kathmandu, Nepal: International Centre for Integrated Mountain Development.Google Scholar
Central Groundwater Board (2009) Groundwater Information Booklet of Leh District Jammu and Kashmir State. Jammu, Leh: North Western Himalayan Region Central Groundwater Board. May 2009.Google Scholar
Dorjey, A and Srivastava, RB (2012) Technology intervention and repercussion among high altitude community of Ladakh: a case study of trench greenhouse. Indian Research Journal of Extension Education 1, 6872.Google Scholar
Erenstein, O, Malik, RK and Singh, S (2007) Adoption and Impacts of Zero-Tillage in the Rice-Wheat Zone of Irrigated Haryana. New Delhi, India: CIMMYT and the Rice-Wheat Consortium for the Indo-Gangetic Plains. 66 pp.Google Scholar
Gupta, HS and Kant, L (2012) Wheat improvement in Northern hills of India. Agriculture Research 1(2), 100116.Google Scholar
GRWH (2011) Global rain water harvesting, (2011). Available at http://www.globalrainwaterharvesting.org/handpump.asp.Google Scholar
Harrington, LW, Fujisaka, S, Morris, ML, Hobbs, PR, Sharma, HC, Singh, RP, Chaudhry, MK and Dhiman, SD (1993) Wheat and Rice in Karnal and Kurukshetra District, Haryana, India – Farmers’ Practices, Problems and Agenda for Action. Mexico, DF: Haryana Agricultural University, Indian Council of Agricultural Research, CIMMYT, and IRRI.Google Scholar
Hobbs, PR, Sayre, KD and Ortiz Monasterio, JI (1998) Increasing Wheat Yields Sustainably Through Agronomic Means. NRG Paper 98-01. Mexico, DF: Mexico.Google Scholar
Jat, LK, Singh, SK, Latare, AM, Singh, RS and Patel, CB (2013) Effect of dates of sowing and fertilizer on growth and yield of wheat in Inceptisol of Varanasi. Indian Journal of Agronomy 58(4), 168171.Google Scholar
Kumar, SP, Alam, P and Ali, N (2013) Response of wheat (Triticum aestivum L. emend. Fori & Paol.) varieties to sowing dates. Journal of Research 25(1), 5659.Google Scholar
LAHDC-L (Ladakh Autonomous Hill Development Council of Leh (2005) Ladakh 2025 Vision Document. Available at http://leh.nic.in/VISION_DOCUMENT.PDF.Google Scholar
Malik, RK, Yadev, A, Singh, S, Malik, RS, Balyan, RS, Banga, RS, Sardana, PK, Jaipal, S, Hobbs, PR, Gill, G, Singh, S, Gupta, RK and Bellinder, R (2002) Herbicide Resistance Management and Evolution of Zero-Tillage—A Success Story. Hisar, India: Research Bulletin, CCS. Haryana Agricultural University. 43p.Google Scholar
Malik, RK, Singh, S and Ashok, Y (2007) Effect of sowing time on grain yield of wheat (Triticum aestivum L.) in rice-wheat cropping system. Haryana Agriculture University Journal of Research 37, 103105.Google Scholar
Pandey, RK, Maranville, JW and Admou, A (2001) Tropical wheat response to irrigation and nitrogen in a Sahelian environment. European Journal of Agronomy 15, 93105.Google Scholar
Parvaiz, A (2010) Artificial Glaciers for Summer Irrigation. New Agriculturist. March 2010. Available at http://www.newag. info/en/developments/devItem.phpa=1367.Google Scholar
Pingali, PL (ed) (1999) CIMMYT 1998-99. World Wheat Facts and Trends. Global Wheat Research in a Changing World: Challenges and Achievements. Mexico, DF, CIMMYT.Google Scholar
Pudasaini, S (2010) Farming High in a Himalayan Desert. Science and Development Network. Available at http://www.scidev.net/en/features/farming-high-in-a-himalayan-desert-2.htmlGoogle Scholar
Sharma, BD, Kar, S and Cheema, SS (1990) Yield, water use and nitrogen uptake for different water and N levels in winter wheat. Fertilizer Research 22, 119127.Google Scholar
Tripathi, SC, Mongia, AD, Sharma, RK, Kharub, AS and Chhokar, RS (2005) Wheat productivity at different sowing time in various agro-climatic zones of India. SAARC Journal of Agriculture 3, 191201.Google Scholar
Xu, J, Shrestha, A, Vaidya, R, Eriksson, M and Hewitt, K (2007) The Melting Himalayas: Regional Challenges and Local Impacts of Climate Change on Mountain Ecosystems and Livelihoods. ICIMOD Technical Paper. Kathmandu: International Centre for Integrated Mountain Development.Google Scholar