Abstract
Large areas in arid and semi-arid regions remain barren due to lack of irrigation. The underground aquifers in these regions are either saline or sodic. Groundwater surveys indicate that poor-quality water is used to irrigate arable crops in 25–84 % of the total groundwater development areas in north-western states of India. The present long-term study assessed the performance of low-water-requiring, salt-tolerant fruit-based (Carissa carandas, Emblica officinalis, Aegle marmelos) agroforestry systems with saline irrigation under sem-iarid conditions. The companion crops such as Hordeum vulgare for malt, Brassica juncea, a seed oil (winter), and Cyamopsis tetragonoloba for gum and Pennisetum typhoides, a coarse grain/fodder (summer), were grown in inter-row spaces. The fruit trees were successfully established in the sill of furrows using low (EC 4–5 dS m−1) salinity water. Subsequently, all the systems were irrigated with water of low and high (8.5–10.0 dS m−1) salinity and their alternate use as per treatments. Fruit yields under alternate and high saline irrigation reduced by 18–27.5 % in Carissa, 41.6 % in Emblica and 31.7–54.8 % in Aegle, respectively. There was no significant reduction in grain yields of Pennisetum and Hordeum. However, in subsequent years, the seed yields of Cyamopsis and Brassica reduced with saline water and more so when intercropped with Aegle. Carissa with Pennisetum and Hordeum performed best with saline water. The study shows that saline water (ECiw up to 10 dS m−1) could be used sustainably for these fruit-based agroforestry systems without significant salinity build-up in sandy loam calcareous soils. Thus, such fruit-based agroforestry systems could be a viable option for the areas with only saline groundwater available for irrigation.
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References
Ahmad R, Khan D, Ismail S (1985) Growth of Azadirachta indica and Melia azedarach in coastal sand using highly saline water for irrigation. Pak J Botany 17(2):229–233
Armitage FB (1984) Irrigated forestry in arid and semi-arid lands: a synthesis. IDRC, Ottawa
Ayers RS, Westcot DW (1985) Water quality for agriculture. FAO Irrigation and Drainage Paper No. 29. Re.1, Rome, pp 173
Bouwer H (2002) Integrated water management for the 21st century: problems and solutions. J Irrig Drain Eng 28:193–202
Chaturvedi AN (1984) Firewood crops in areas of brackish water. Indian For 110(4):364–366
Dagar JC, Tomar OS, Yadav RK, Kumar Y, Bhagwan H, Tyagi NK (2006) Performance of some under-explored crops under saline irrigation in a semiarid climate in northwest India. Land Deg Dev 17:285–299
Dagar JC, Tomar OS, Minhas PS, Singh G, Jeet Ram (2008) Dry land biosaline agriculture—Hisar Experience. Tech Bull 6. CSSRI, Karnal, pp 28
Dagar JC, Tomar OS, Minhas PS, Mukesh Kumar (2013) Lemongrass (Cymbopogon flexuosus) productivity as affected by salinity of irrigation water, planting method and fertilizer doses on degraded calcareous soil in a semi-arid region of northwest India. Indian J Agric Sci 83(7):734–738
GoI (1998) India-A reference manual. Ministry of Information & Broadcasting, Government of India, Patiala House, New Delhi
Gupta RK, Tomar OS, Minhas PS (1995) Managing salt-affected soils and water for afforestation. Bull No. 7/95, Central Soil Salinity Research Institute, Karnal, pp 23
Jackson ML (1967) Soil chemical analysis. Asia Publishing House, New Delhi
Jain BL, Goyal RS, Muthana KD (1983) Performance of some tree species in relation to irrigation with saline water. Ann Arid Zone 22:233–238
Joy PP, Skaria BP, Mathew S, Mathew G, Joseph A (2006) Lemongrass: the fame of Cochin. Indian J Arecanut Spices Med Plants 8(2):55–64
Minhas PS (1996) Saline water management for irrigation in India. Agric Water Manag 30:1–24
Minhas PS, Singh YP, Tomar OS, Gupta RK, Gupta Raj K (1997a) Saline-water irrigation for the establishment of furrow-planted trees in north-west India. Agrofor Syst 35:177–186
Minhas PS, Singh YP, Tomar OS, Gupta RK, Gupta Raj K (1997b) Effect of saline irrigation and its schedules on growth, biomass production and water use by Acacia nilotica and Dalbergia sissoo in a highly calcareous soil. J Arid Environ 36:181–192
Ministry of Agriculture (2012) Agricultural statistics at a glance. Department of Agriculture and Cooperation, Directorate of Economics and Statistics, Ministry of Agriculture, Government of India, New Delhi
Morris J, Bickford R, Collopy J (1994) Tree and shrub performance and soil conditions in a plantation irrigated with saline ground water. Res. Report No. 357. Department of Conservation and Natural Resources, Victoria, pp 37
Patra DD, Singh DV (1995) Utilization of salt affected soils and saline/sodic irrigation water for cultivation of medicinal and aromatic plants. Curr Res Med Aromat Plants 17:378–381
Piper CS (1966) Soil and plant analysis. University of Adelaide, Australia
Qadar M, Oster JD, Schubert S, Noble AD, Saharawa KL (2007) Phytoremediation of sodic and saline-sodic soils. Adv Agron 96:197–247
Qadar M, Tubeileh A, Akhtar J, Labri A, Minhas PS, Khan MA (2008) Productivity enhancement of salt-affected environments through crop diversification. Land Deg Dev 19:429–453
Rhoades JD, Kandiah A, Mashali AM (1992) The use of saline water for crop production. FAO Irrigation & Drainage Paper 48, Food & Agriculture Organisation, Rome
Richards LA (1954) Diagnosis and improvement of saline and alkali soils. USDA, Washington DC
Rogers AL (1985) Foliar salt in Eucalyptus species. Aust For Res 15:9–16
Shalhevet J (1984) Management of irrigation with brackish water. In: Shaiberg I, Shalhevet J (eds) Soil salinity under irrigation. Springer Verlag, New York, pp 298–318
Tomar OS, Minhas PS (2004a) Relative performance of some aromatic grasses under saline irrigation. Indian J Agron 49(3):207–208
Tomar OS, Minhas PS (2004b) Performance of some medicinal plant species under saline irrigation. Indian J Agron 49(3):209–211
Tomar OS, Minhas PS, Gupta RK (1994) Potential for afforestation of waterlogged saline soils. In: Singh P, Pathak PS, Roy MM (eds) Agroforestry systems for degraded lands, vol 1. Oxford & IBH Pub Co Pv. Ltd, New Delhi, pp 111–120
Tomar OS, Gupta RK, Dagar JC (1998) Afforestation techniques and evaluation of different tree species for waterlogged saline soils in semi arid tropics. Arid Soil Res Rehabil 12(4):301–316
Tomar OS, Minhas PS, Sharma VK, Gupta RK (2003a) Response of nine forage grasses to saline irrigation and its schedules in a semi-arid climate of north-west India. J Arid Environ 55:533–544
Tomar OS, Minhas PS, Sharma VK, Singh YP, Gupta RK (2003b) Performance of 31 tree species and soil conditions in a plantation established with saline irrigation. For Ecol Manag 177:333–346
Tomar OS, Dagar JC, Minhas PS (2010) Evaluation of sowing methods, irrigation schedules, chemical fertilizer doses and varieties of Plantago ovata to rehabilitate degraded calcareous lands irrigated with saline water in dry regions of north-western India. Arid Land Res Manag 24:133–151
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Dagar, J.C., Yadav, R.K., Tomar, O.S. et al. Fruit-based agroforestry systems for saline water-irrigated semi-arid hyperthermic camborthids soils of north-west India. Agroforest Syst 90, 1123–1132 (2016). https://doi.org/10.1007/s10457-015-9889-4
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DOI: https://doi.org/10.1007/s10457-015-9889-4