Changes in soil properties under tree species

I S SINGH; O P AWASTHI; R S SINGH; T A MORE; S R MEENA

doi:10.56093/ijas.v82i2.15290

Authors

I S SINGH Central Institute for Arid Horticulture, Beechwal, Bikaner, Rajasthan 334 006
O P AWASTHI Central Institute for Arid Horticulture, Beechwal, Bikaner, Rajasthan 334 006
R S SINGH Central Institute for Arid Horticulture, Beechwal, Bikaner, Rajasthan 334 006
T A MORE Central Institute for Arid Horticulture, Beechwal, Bikaner, Rajasthan 334 006
S R MEENA Central Institute for Arid Horticulture, Beechwal, Bikaner, Rajasthan 334 006

https://doi.org/10.56093/ijas.v82i2.15290

Keywords:

Exchangeable cations, Loamy sand soils, Nutrient distribution, Soil properties, Tree species

Abstract

A study was conducted to study the effects of ber (Ziziphus mauritiana Lamk), drumstick (Moringa olerifera Lam), karonda (Carissa congesta Wt.) and khejri (Prosopis cineraria L. Druce) on the physical and chemical properties of soil at different depths (0–15, 15–30, 30–45 and 45–60 cm). The increase in the porosity and water-holding capacity and decrease in the bulk density (of subsurface soils) in the sites under plantations were marginal, when compared to open sites. There was slight decrease in the pH of soil under vegetated area, whereas no appreciable change in EC was observed. There was an appreciable increase in the organic carbon (0.04 to 0.13%) and available nitrogen content (69 to 100 kg/ha) in the sites under vegetation. Fruit plants, particularly ber and drumstick growing in the arid region indicated the process of deposition of bases such as Ca and Mg in the surface layers from lower strata. Overall results showed that exchangeable cations such as Ca, Mg, and Na and available P and K have depicted a poor potential activity in the maintenance of fertility which is affected by the young nature of plantation. The increase/decrease of soil properties due to the influence of plantation was more in surface (0–15 cm) and subsurface (15–30 cm) than in the sub-surface layers of 30–45 and 45–60 cm. The results obtained from the physical and chemical analyses indicated that among the four different fruit plantations, ber recorded substantial improvement and maintenance in soil fertility followed by drumstick. The nutrient return through litter fall followed the order K > N > Ca in Z. mauritiana and M. olerifera and N > Ca > K, Ca > N > K in C. congesta and cineraria respectively. The soils belong to the order Entisol and the calcareous pH is well adopted for the plantation of these fruit trees.

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References

Awasthi O P and Singh I S. 2010. Effect of ber and pomegranate plantation on soil nutrient status of Typic torripsamments. Indian Journal of Horticulture 67: 138–42.

Balamurugan J, Kumaraswamy K and Rajarajan A. 2000. Effect of Eucalyptus citriodora on the physical and chemical properties of soils. Journal of the Indian Society of Soil Science 48: 491–5.

Belsky A J, Amundson R G, Duxbry J M, Riha S J, Ali A R and Mwonga S M. 1989. The effects of tree on their physical, chemical, and biological environments in a semi-arid savanna in Kenya. Journal of Soil Science 37: 345–50.

Blake G R and Hartage K H. 1986. Bulk density. (in) Methods of Soil Analysis, Part 1. 2nd edn, pp 363–75. Klute, A (Ed.) Physical and Mineralogical Methods. Agronomy Monograph 9.

Franzluebbers A J. 2002. Water infiltration and soil structure related to organic matter and its stratification with depth. Soil and Tillage Research 66: 197–205.

Gedda A E. 2003. ‘Rangeland evaluation in relation to Pastrolists perceptions in the Middle Awash Valley of Ethiopia’, Ph D thesis, 297 pp. University of the Free State, Bloemfontein, South Africa.

Jackson M L. 1973. Soil Chemical Analysis, 498 pp. Prentice Hall of India Pvt. Ltd, New Delhi.

Li Y Y and Sheo M A. 2006. Change of soil physical properties under long-term natural vegetation restoration in the loess pleateau of China. Journal of Arid Environments 64: 77–96.

Sharma B M and Gupta J P. 2001. Indigenous knowledge of nutrient management in western Rajasthan. (in) Indigenous Nutrient Management Practices-Wisdom Alive in India pp 1-12 Acharya C L, Ghosh P K and Subba Rao A (Eds). Indian Institute of Soil Science, Nabibagh, Bhopal.

Sharma B M. 2003. Productivity of grain legumes in agrisilviculture systems under hot arid conditions. (in) Advances in Arid Legume Research, pp 279. Scientific Publishers, Jodhpur.

Sharma B M. 2005. Effect of trees on yield, water expense efficiency and nutrient uptake by cluster bean in arid environment. Journal of the Indian Society of Soil Science 53: 50–3.

Singh B, Gill R I S and Kaur N. 2007. Litterfall and nutrient return in poplar plantation varying in row direction and spacings. Indian Journal of Agroforestry 9: 33–7

Singh I S, Awasthi O P, Sharma BD, More T A and Meena S R. 2010. Soil fertility changes under fruit trees in Thar desert ecosystem. Central Institute for Arid Horticulture, Bikaner. Technical Bulletin 37: 2.

Vijay Shankar Babu M, Mastan Reddy C, Subramanyam A and Balaguravaiah D. 2007. Effect of integrated use of organic and inorganic fertilizers on soil properties and yield of sugarcane. Journal of the Indian Society of Soil Science 55: 161–6.

Zhenghu D, Honglang X, Zhibao D, Gang W and Drake S. 2007. Morphological, physical and chemical properties of Aeolian sandy soils in northern China. Journal of Arid Environments 68: 66–76.