Soil and Plant Analysis - A Strategic Tool to Diagnose Micronutrient Imbalance in Lime and Sapota Orchard in Tablelands of Chambal Ravine Region of India

Authors

  • Rashmi I Author
  • Meena H R Author
  • Somasundaram J Author
  • Radha T K Author

DOI:

https://doi.org/10.24154/jhs.v15i1.786

Keywords:

Copper, Iron, Leaf analysis, Manganese, Micronutrient deficiency, Sapota, Zinc

Abstract

Micronutrient imbalance in lime and sapota fruit crops result in unstable fruit yield, fruit shedding and degrade quality of the produce. A study was therefore conducted to evaluate micronutrient statusoflime and sapota orchard by analysing soil and plant samples. Soil samples were collected from surface (0-15cm) and sub-surface (15-30cm) depth representing whole orchard. At the same time, plant samples including 35-40 each for leaves and petiole samples each from lime and sapota field was also collected. Available micronutrients from soil samples were extracted using diethylenetriaminepenta acetic acid (DTPA) and it was in the order of manganese (Mn)> iron (Fe)> zinc (Zn)> copper (Cu) in both lime and sapota plantations. DTPA- extractable Zn and Cu showed low status, marginal status of Fe and sufficient level of Mn in soils of sapota plantations. In plant analysis, high concentration of Cu (869 mg kg-1) and Zn (411mg kg-1) was observed in lime leaves; however, in sapota crop Cu and Zn content was 8.25mg kg-1 and 16.7mg kg- 1 respectively. Similarly, Fe and Mn content of lime leaves was 197 and 43 mg kg-1 which was slightly higher than sapota leaves that recorded 128 and 49mg kg-1 of Fe and Zn respectively. In sapota plants, higher Mn and Cu concentration in leaf resulted in Zn deficiency symptoms such as shortened internodes or rosette disorders of sapota plants. Thus, correcting micronutrient deficiency is pre-requisite for qualitative and quantitative fruit production in tablelands of India.

References

Cooper, L. and Abi-Ghanem, R. 2017. Micronutrients Are the Key to Better Yields. Publication No. HG-170215-02, Bio Huma Netics Inc.

Ducic, T. and Polle, A. 2005. Transport and detoxification of manganese and copper in plants. Braz. J. Plt.Phy., 17: 103-112.

Gathala, M. K., B. L. Yadav, and Singh, S. D. 2004. Mineral nutrient status of pomegranate orchard in Jaipur district of Rajasthan. J. Ind. Soc. Soil Sci. 52:206–208.

ICAR- NAAS. 2010. Degraded and wastelands of India : status and spatial distribution., Directorate of Information and Publications of Agriculture, Indian Council of Agricultural Research, Krishi Anusandhan Bhavan I, Pusa Road, & National Academy of Sciences, New Delhi 110 012.

Katyal, J. C. 2018. Micronutrients in Indian Agriculture. Ind. J. Ferti., 14(4): 12-26.

Kumar, M. and Babel A. L. 2011. Available micronutrient status and their relationship with soil properties of jhunjhunu tehsil, District Jhun jhunu, Rajasthan. Ind. J. Agri. Sci., 3(2): 97-106.

Lei, Y. and Korpelainen, H. L.C. 2007. Physiological and biochemical responses to high Mn concentrations in two contrasting Populus cathayana populations. Chemosphere, 68: 686- 694.

Lindsay, W.H. and Norvell, W.A. 1978. Development of DTPA Soil test for zinc, iron, manganese and copper. Soil Sci. Soc. Am. J., 42: 421-428.

Meena, H.R., Somasundaram, J., Kaushik, R.A., Sarolia, D.K., Singh, R.K. and Meena, G.L. 2019. Integrated nutrient management affects fruit yield of sapota (Achras zapota L.) and nutrient availability in a vertisol. Comm. Soil

Sci. and Plt Ana., 50 (22):2848-2863.

Motsara, M.R. and Roy, R.N. 2008. Guide to laboratory establishment for plant nutrient analysis. FAO fertilizer and plant nutrition, Bulletin No 19: 77-81

Guvvali, T. 2016. Effect of micronutrients on growth, yield and quality of sapota cv. Kalipatti under HDP system. Thesis submitted, UHS, Bagalkot.

Guvvali, T. and Shirol, A.M. 2017. Effect of micronutrients application on soil properties of Sapota (AchrassapotaL.) cv. Kalipatti. Asia. J. Soil Sci. Plt. Nutr., 2(2): 1-6.

Pani, P. and Carling, P. 2013. Land degradation and spatial vulnerabilities: a study of inter-village differences in Chambal Valley, India. Asian Geograp., 30:1, 65-79.

Reuter, D.J., Robinson, J.B., Peverill, K.I., Price, G.H. and Lambert, M.J. 1997. Guidelines for collecting, handling and analyzing plant materials. In Plant analysis: An interpretation manual, ed. D.J.Reuter et al., P.55-70. Australia, CSIRO.

Satyagopal, K., Sushil, S.N. and Jeyakumar, P. et al. 2015. AESA based IPM package for Sapota. pp 37.

Sharma, K.M. 2015. Effect of foliar application of different chemicals on yield and quality of Sapota [Manilkara achras (Mill.) Fosberg] CV. KALIPATTI. M.Sc Thesis submitted, at NAU, Navsari, Gujrat.

Shukla, A., Behera, S., Pakhre, A. And Chaudhary, S. 2018. Micronutrients in soils, plants, animals and humans. Ind. J. Fert., 14(4): 30-54.

Shyampura, R.L. and Seghal, J. 1995. Soils of Rajasthan for optimizing land use (NBSS Publication Soils of India Series) Nagpur, India: National Bureau of Soil Survey and Land Use Planning.

Singh, R. D., S. Kumar, and Pande, H. 2006. Micronutrient status of soils under different vegetation in Uttaranchal Hills. J. Ind. Soc. Soil Sci. 54:115–116.

Somasundaram, J., Meena, H.R., Singh, R.K., Prasad, S.N. and Parandiyal, A.K. 2011. Diagnosis of micronutrient imbalance in lime crop in semi-arid region of Rajasthan, India. Comm. Soil Sci. Plt. Anal., 42: 858-869.

Srivastava, A. K. and Singh, S. 2006. Diagnosis of nutrient constraints in citrus orchards of humid tropical India. J. Plt. Nut., 29:6, 1061-1076.

Srivastava, A. K., and Singh, S. 2008. Citrus nutrition in India: Current status and future strategies. Ind. J. Agri. Sci., 78:3–16.

Surwase, S.A., Kadu, P.R. and Patil, D.S. 2016. Soil micronutrient status and fruit quality of orange orchards in Kalmeshwar Tehsil, district Nagpur (MS). J. Glob. Biosci., 5(1): 3523-3533.

Downloads

Published

30-06-2020

Issue

Section

Original Research Papers

How to Cite

I, R., H R, M., J, S., & T K, R. (2020). Soil and Plant Analysis - A Strategic Tool to Diagnose Micronutrient Imbalance in Lime and Sapota Orchard in Tablelands of Chambal Ravine Region of India. Journal of Horticultural Sciences, 15(1), 72-80. https://doi.org/10.24154/jhs.v15i1.786

Similar Articles

61-70 of 271

You may also start an advanced similarity search for this article.