Alkali lands in India occupy about 3 million ha. Due to poor physical properties, excessive exchangeable sodium and high pH, most of these lands support a very poor vegetation cover. Many of the medicinal and aromatic plants are in great demand for both internal requirements and export. But since these crops are non-conventional in nature, it is not always possible for them to be produced on fertile lands, which can be used for arable crops. The marginal lands, specifically the lands affected by salinity or sodicity problems where profitable returns are not possible from agricultural crops, could be successfully utilized for the cultivation of these high-value crops with marginal inputs. Results reported in this paper clearly indicated that out of three aromatic grasses, palmarosa (Cymbopogon martinii (Roxb.) Wats.) and lemon grass (C. flexuosus (Steud.) Wats.) could successfully be grown on moderatly alkali soils of pH up to 9Á2 while vetiver (Vetiveria zizanioides (L.) Nash), which withstands both high pH and stagnation of water, could successfully be grown without significant yield reduction on highly alkali soils. These grasses not only produce essential oils used for industrial purposes but also ameliorate the soil.
Growing salt-tolerant under-explored crops utilizing saline ground water can provide for an economic use of abandoned semiarid lands. Field trials were conducted between 1999 and 2003 on a calcareous soil in a semiarid region of northwest India. Woody perennials were planted at the sill of furrows and irrigated with water of high salinity (EC 10-28 dS m À1 ), low salinity (EC 5-9 dS m À1 ) and alternately with these two waters. Woody species included Azadirachta indica, Cordia rothii, Salvadora persica, Jatropha curcas, J. gossipifolia, Ricinus communis, Catharanthus roseus, Adhatoda vasica and Aloe barbadensis. Most of these could be grown successfully but S. persica-a highly salt-tolerant halophyte-though it produced huge biomass, could not yield mature fruit due to frost injury. The salinity build up in the soil was greater during low-rainfall years, but a good rainfall year, e.g. 714 mm in 2001, helped to leach out the accumulated salts. The uptake of Na þ in plants was greater when irrigated with water of high salinity, while K þ accumulation was greater with water of low salinity. Na þ accumulation was higher in roots as compared to other parts except in Jatropha and Salvadora, while K þ accumulation was greater in leaves. There was a negative correlation between Na þ and K þ accumulation and a positive correlation between Ca 2þ and Mg 2þ . Thus, saline water (ECiw 12 dS m À1 ) can successfully be used for growing several under-explored crops of high economic value.
Reduction in forage production (FP) under trees in the humid tropics is well known, but information on how different levels of nitrogen (N) fertilizer influence FP under trees is meager. The present study reports effects of four N fertilizer levels (0, 60, 80 and 120 kg ha -1 N) on net soil N mineralization rate (NMR) and soil moisture (SM), FP, shoot biomass/root biomass ratio (SB/RB), N concentration in SB, N uptake and nitrogen use efficiency (NUE) of three grasses [guinea (Panicum maximum Jacq.), para (Brachiaria mutica (Forssk) Stapf) and hybrid-napier (Pennisetum purpureum Schumach.)] under three canopy positions [under canopy (UC, representing high shade), between canopy (BC, representing low shade) and open] of coconut trees (Cocos nucifera L.) in a coconut based silvopastoral system in the humid tropical climate of South Andaman Island of India. The study was performed for two annual cycles (2005-2006 and 2006-2007). The hypotheses tested were: (1) FP would decline under tree shades, both in N fertilized as well as no N fertilized conditions, when SM was not growth limiting in the open. However, amount of decline in the FP would depend on grass species and intensity of shades i.e., higher was the shade greater would be the decline; (2) N fertilizer would increase FP under tree shades, but the increase depended on grass species, intensity of shades and amount of N applied. Amount of N applied, however, would not annul the shades effects when SM was not growth limiting in the open. The study revealed that the tree reduced light 59% under UC and 32% under BC positions, but the N fertilizer levels increased NMR by 11-51% under UC and 3-44% under BC positions compared to the open. SM did not differ across the canopy positions. Under all situations, FP of all grasses declined under UC (47-78%) and BC (18-32%) positions compared to the open; the decline was greater in Hybrid-napier than Guinea and Para grasses. Forage production of all grasses increased with N fertilizer increments under all canopy positions reaching 32 t ha -1 dry matters for hybrid-napier at 120 kg ha -1 N in the open. Both guinea and para grasses outyielded hybrid-napier grass under UC but not under BC or in the open. N concentration in the forage (SB) also increased as N fertilizer level increased. These observations support our hypotheses and suggest that forage production under coconut palms can be increased by the application of N fertilizer with both guinea and para grasses being more productive than hybrid-napier grass under the high shade. Where light conditions are better, hybridnapier would produce more forage than the other species.
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