Importance of Micronutrients in the Changing Horticultural Scenario in India

Authors

  • M Edward Raja Author

DOI:

https://doi.org/10.24154/jhs.v4i1.547

Keywords:

Micronutrient, Horticultural Crops, Deficiency, Foliar Nutrition, Organic Farming

Abstract

Sustenance and well-being of humankind are linked to the stocks of essential nutrients in the bio-geosphere and the capacity for cycling and manipulation. Micronutrients play a major role in crop production due to their essentiality in plant metabolism and adverse effects that manifest due to their deficiency. Besides affecting plant growth, micronutrients also play a major role in disease resistance in cultivated crop species. A hitherto lesser-understood phenomenon is their role in determining quality and the post harvest life of harvested produce. In the Indian context, this situation has become alarming due to the widespread occurrence of micronutrient imbalance throughout the country. Though soil application of soluble forms of micronutrients has been widely practiced in the past, it calls for introspection, considering the nature of occurrence of micronutrient related maladies. Novel approaches include application of crop-specific foliar formulations of micronutrients, application of chelated forms of micronutrients and the genetic biofortification of crops. In view of the importance of micronutrients in human diet, it is felt that biofortification of horticultural crops will play a definite and major role in addressing nutritional security of the nation in the coming years.

References

Adatia, M.H. and Besford, R. 1986. The effects of silicon on cucumber plants grown in recirculating nutrient solution. Ann. Bot., 58:343-351

Agarwala, S.C. 1988. Iron, manganese and magnesium interaction in cauliflower J. Pl. Nutr., 11:1005-1014

Alloway, B.J. 2008. Micronutrient deficiencies in global crop production. Springer, New York

Anderson, A.J. 1956. Molybdenum as a fertilizer. Adv. Agron., 8:163-202

Bagci, H. Ekiz, Yilmaz, A., and Cakmak, I. 2007. Effects of zinc deficiency and drought on grain yield of field- grown wheat cultivars in central Anatolia. J. Agron. & Crop Sci., 193:198-206

Bai, C.C., Reilly, C. and Wood, B .W. 2006 Nickel deficiency disrupts metabolism of urides, amino acids, and organic acids of young pecan foliage. Pl. Physiol., 140:433-443

Balakrishnan, K., Rajendran, R. and Kulandaivelu, G. 2000. Differential responses to iron, magnesium and zinc deficiency on pigment composition, nutrient content & photosynthetic activity in tropical fruit crops. Photosynthetica, 38:477-479

Beaufils, E.R. 1973. Diagnosis and Recommendation Integrated System (DRIS). Soil Sci. Bull. No. 1, University of Natal

Bell, A.A. 1981. Biochemical mechanisms of disease resistance. Ann. Rev. Pl. Physiol. 32:21-81

Benjavan Rerkasem and Jack F. Loneragan. 1994. Boron deficiency in two wheat genotypes in a warm, subtropical region. Agron. J., 86:887-890

Berger, K.C. and Truog, E. 1945. Boron availability in relation to soil reaction and organic matter content. Soil Sci. Soc. Am. Proc., 1:113-116

Bertrand, G. and Javillier, M. 1912.Action of manganese and the development of Aspergillus niger, Bull. Soc. Chim. Fr., 4:212-221

Bettger, W.J. and O’Dell, B.L. 1981. A critical physiological role of zinc in the structure and function of biomembranes. Life Sci., 28:1425-1438

Bhargava, B.S. and Chadha, K.L. 1988. Leaf nutrient guide for fruit and plantation crops. Fert. News., 33:21-29

Bortels, H. 1927. Uber die bedeutung von Eisen, zinc copper and manganese in barley and sugarcane. J. Pl. Nutr., 182:301-358

Brown, P.H. and Shelp, B.J. 1997. Boron mobility in plants. Plant Soil. 193: 85-101

Brown, P. H., Graham, R.D. and Nicholas, J. D. 1984. The effects of managanese and nitrate supply on the levels of phenolics and lignin in young wheat plants. Pl. & Soil, 81: 437-440

Cakmak, I. 2000. Role of zinc in protecting plant cells from human needs for food in sustainable ways. Pl. & Soil, 247:3-24

Cakmak, I. 2002. Plant nutrition research: Priorities to meet human needs for food in sustainable ways. Pl. & Soil, 247:3-24

Cakmak, I. 2008.Enrichment or cereal grains with zinc: agronomic or genetic biofortification. Pl. & Soil, 302:1-17

Cakmak, I., Kalayci, M., Ekiz, H., Braun, H.J. and Yilmaz, A. 1999. Zinc deficiency as an actual problem in plant and human nutrition in Turkey: A NATO-Science for Stability Project. Field Crops Res., 60:175-188

Cate, R.B. and Nelson, L.A. 1971. A simple statistical procedure for partitioning soil test correlation data into two classes. Soil Sci. Soc. Amer. J., 35:658-660

Catlett, K.M., Heil, D.M. and Ebinger, M.H. 2002. Soil chemical properties controlling Zinc 2+ activity in 18 Colorado soils. Soil. Sci. Soc. Am. J., 66:1182-1189

Chang, S.S. 1993. Nutritional physiology of boron diagnosis and correction of boron deficiency and toxicity in crops. In: Procs. Symp. on boron deficiency and toxicity in crops. S.N. Hwang and G.C. Chaing (eds.). Chinese Soc. Soil Fert. Sci./ Hwaiian District Agricultural Improvement Station, Taiwan, pp 109-122

Chang, S.S., Hu, N.H., Chen, C.C and Chiu, T.F. 1993. The diagnostic criteria of boron deficiency in papaya and the soil boron status of Taitung area. J. Agril. Res. China, 32: 238-252

Chen, Y. and Barak, P. 1983. Iron-enriched peat and lignite as iron fertilizers. Procs. Second Int’l. Symp. Peat in Agri.& Hort., Bet Dagan, pp 195-202

Chitara, F. and De Praca, A.B. 2004. Quality and post- harvest storage of Gaha melon hybrid Arara following pre-harvest application of Ca chelate and boron. Procs. Int’l Soc. Trop. Hort., 47:61-64

Chvapil, M. 1973. New aspects in the biological role of zinc: a stabilizer of macromolecules and biological membranes. Life Sci., 13:1041-1049

Coke, J. and Wittington, B. 1968. The role of boron in plant growth: Interrelationships between boron and indol- 3yl-acetic acid in the metabolism of bean radicles. J. Exptl. Bot., 19:295-308

Cripps, J.E.L., Doepel, R.F. and McLean, G.D. 1983. Canning peach decline in Western Australia. II. Methods of prevention. Aust. J. Agril. Res., 34:517-526

Crisp, P. and Reid, P.H. 1964. Calcium-boron on tip burn and auxin activity in lettuce. Sci. Hort., 5:215-226

Dell, B. and Huang, H. 1997. Physiological response of plants to low boron. Pl. & Soil, 193:103-120

Dixon, G.R. 1984. Galls caused by fungi and bacteria. In: R.K.S. Wood and G.J. Jellis (eds.). Plant diseases: Infection damage and loss. Blackwell Scientific Publ., Oxford, England, pp 189-197

Dixon, G.R. and Webster, M.A. 1988. Antagonistic effects of boron, calcium and pH on pathogenesis caused by Plasmodiophora brassicae Woronin (clubroot) - A review of recent work. Crop Res., 28:83-95

Dutta, B.K. and Bremner, E. 1981. Trace elements as plant chemotherapeutants to control Verticillium wilt. Z. Pflanzenkrankh. Pflanzenschutz, 88:405-412

Edward Raja, M. 1990. Studies on bronzing in guava. Adv. Hort. & Forestry, 1:55-63

Edward Raja, M. 2009. Investigation on causes and correction of Spongy Tissue in Alphonso mango (Mangifera indica L.) Procs. 8 th Int’l. Mango Symposium, eds: S.A. Oosthuyse, Acta Hort., 820:697-706

Edward Raja, M. 2009.Screening of mango cultivars for tolerance to iIron deficiency Procs. 8 th Int’l. Mango Symposium, eds: S.A Oosthuyse, Acta Hort., 820:173-175

Edward Raja, M. and Anilkumar, S.C. 2005. Boron deficiencies in mango (Mangifera indica L.) cause delineation study in acidic soils of Maharashtra, India. Soil Sci. & Pl. Nurt., 51:313-322

Edward Raja, M. and Iyengar, B.R.V. 1986. Chemical pools of zinc in some soils as influenced by sources of applied zinc. J. Ind. Soc. Soil Sci., 34:97-105

Elrashidi, M.A. and O’Connor, G.A. 1982. Boron sorption and desorption in soils. Soil Sci. Soc. Amer. J., 46:27-31

Evans, H.J. and S.A. Russel. 1971. In: The Chemistry and Biochemistry of Nitrogen Fixation, J.R. Postgate (ed.), Plenum Press, London, pp 191-215

Jobin-Lawler, F., Simard, K., Gosselin, A. and Papadopoulos. A.P. 2002. The influence of solar radiation and boron- calcium fruit application on cuticle cracking of a winter tomato crop grown under supplemental lighting. Acta Hort.,580:120-132

Fernando, T. 1986. Effects of microelements on production of Roridin E by Myrothecium roridum, a strain pathogenic to muskmelon (Cucumis melo). Trans. Br. Mycol. Soc. 86:273-277

Fleming, G.A. 1980. Essential micronutrients. I. Boron and molybdenum. In: All Soil Trace Elements, B.E. Davies (ed.), John Wiley and Sons, New York, USA, pp 155-197

Gaur, R.B. and Vaidya, P.K. 1983.Reduction of root rot of chickpea by soil application of phosphorus and zinc. Int’l. Chickpea Newslett. 9:17-18

Graham, R.D. 1983. Effects of nutrient stress on susceptibility of plants to disease with particular reference to the trace elements. Adv. Bot. Res., 10:221-276

Graham, R.D. 2002. Breeding for nutritional characteristics in cereals Adv. Pl. Nutr., 1: 57-101

Graham, R.D. and Rovira, A.D. 1984. A role for manganese in the resistance of wheat plants to take-all. Pl. & Soil, 78:441-448

Graham, R.D., Welch, R.M., Grunes, D.L., Cray, E.E., and Norvell, W.A. 1987. Effect of zinc deficiency on the accumulation of boron and other mineral nutrients in barley. Soil, Sci. Amer. J., 51:652-657

Guerra, D. and Anderson, A.J. 1985. The effect of iron and boron amendments on infection of bean by Fusarium solani. Phytopath., 75:989-991

Gupta, U.C. 1979. Boron nutrition of crops. Adv. Agron. 31, 273–307

Gupta, U.C. 1983. Boron deficiency and toxicity symptoms for several crops as related to tissue boron levels. J. Pl. Nutr., 6:387-395

Gupta, U.C. and Cutcliffe, J.A. 1975. Boron deficiency in cole crops [broccoli, Brussels sprouts, cauliflower] under field and greenhouse conditions. Comm. Soil Sci. & Pl. Anal., 6:181-188

Gupta, U.C. and J.A. Cutcliffe. 1973. Boron nutrition of broccoli, Brussels sprouts and cauliflower grown on Prince Edward Island. Can. J. Soil Sci., 53: 275-279

Gurley, W.H. and Giddens, J. 1969. Factors affecting uptake, yield response, and carry-over of Mo in soybean seed. Agron. J., 61:7-9

Gvozdyak, R.I. and Pindius, N.I. 1988. Bacterial diseases of ginseng leaves in the Ukraine. Mikrobiol. Zh. (Kiev), 50:52-55

Hacisalihoglu, G., Ozturk, L., Cakmak, I., Welch, R.M. and Kochian, L.2004. Genotypic variation in common bean in response to zinc deficiency in calcareous soil. Pl. & Soil, 259:71-83

Halsall, C. and Forrester, D.M., 1977. Effects of certain cations on the formation and infectivity of Phytophthora zoospores. 1. Effects of calcium, magnesium, potassium and iron ions. Can. J. Microbiol., 23:994-1001

Hamilton , J.M. , Palmiter, D.H. and Anderson L.C.1943. Preliminary tests with in foliar sprays as a means of regulating the nitrogen supply of apple trees. Proc.Amer. Soc. Hort. Sci.,42: 123-126.

Hampson, J. and Haard, C. 1980. Pathogenesis of Synchytrium endobioticum: 1. Infection responses in potato and tomato. Can. J. Pl. Pathol, 2:143-147

Haquem,M. and Mukhopadhya, A.K.1983. Influence of some micronutrients on Rotylenchulus reniformis. Ind. J. Nemat., 13:115-116

Hemantranjan, A. 1986. Introduction of nitrogen-fixing nodules through iron and zinc fertilization in the non– nodule forming French bean (Phaseolus vulgaris L.). J. Pl. Nutr., 9:281-288

Hemantranjan, J. 1998. Iron fertilization in relation to nodulation and nitrogen fixation in French bean. J. Pl. Nutr., 11: 829-842

Hooley, P. and Shaw, D.S. 1985. Inheritance of sensitivity to heavy metals in Phytophthora drechsleri. Trans. Br. Mycol. Soc., 85:677-682

Huang, L., Ye, Z. and Bell, R. 1996. The importance of sampling immature leaves for the diagnosis of boron deficiency in oilseed rape (Brassica napus cv. Eureka). Pl. & Soil. 183:187-189

Huber, D.M. and Wilhelm, N.S. 1988. The role of manganese in resistance to plant diseases. Dev. Pl. & Soil Sci., 33:155-173

Iyengar, B.R.V. and Edward Raja, M. 1988. Response of some vegetables to different sources and methods of zinc application. Ind. J. Agril. Sci., 58:565-567

Kadman, A. and Gazit, S. 1984. The problem of iron deficiency in mango trees and experiments to cure it in Israel. J. Pl. Nutr., 7:283-290

Kannan, S. and Ramani, S. 1988. Iron deficiency stress response in crop plants: an examination in linseed cultivars. J. Pl. Nutr., 11:755-762

Kataria, H.R. 1982. Pathogenesis of Rhizoctonia solani on legume crops as influenced by soil conditions and fertility level. Ind. J. Mycol. & Pl. Pathol., 12:125-126

Kataria, H.R. and Grover, R.K. 1987. Influence of soil factors, fertilizers and manures on pathogenicity of Rhizoctonia solani on Vigna species. Pl. & Soil, 103:57-66

Keast, D., Tonkin, C. and Sanfelieu, L. 1985. Effects of copper salt on growth and survival of Phytophthora cinnamomi in vitro and on the antifungal activity of actinomycete populations from the roots of Eucalyptus marginata and Banksia grandis. Aust. J. Bot., 33:115-129

Kruger, F.S., Snjidier, B. and Fraser, F.T. 2003. Development of wind and pulp mineral content as indicators of storage potential of sub-tropical fruits. S. Afr. Fr. J., 2:39-43

Le Qing Qu, Toshihiro Yoshihara, Akio Ooyama, Fumiyuki Goto and Fumio Takaiwa . 2005. Iron accumulation does not parallel the high expression level of ferritin in transgenic rice seeds. Planta.222: 225-233

Lebeder, W.I. 1968. The influence of character of chemical links on the phenomena of the isomorphism in silicates.

Series Geol. Geog, 15:28-38

Lewis, J. 1980. Boron, lignification and the origin of vascular plants: a unified hyptothesis. New Phytol., 84:209-229

Lindsay, W.L. 1991. Inorganic equilibria affecting micronutrients in soils. In: Micronutrients in agriculture, Mortvedt, J.J., Cox, F.R., Shuman, L.M. and Welch, R.M. (eds), Soil Sci. Soc. Amer., Madison, Wisconsin, 2nd ed. pp 89-112

Liu, Z., Zhy, Q.Q. and Tang, L.H. 1983. Microelements in the main soils of China. Soil Sci., 135:40-46

Loneragan, J.F. 1997. Plant nutrition in the 20 th and perspectives for the 21 st Century. Pl. & Soil, 196:163-174

Loomis, W.D. and Durst, R.W. 1992. Chemistry and biology of boron. Biofactors, 3:229-239

Mai, W.F. and Abaci, B.1987. Interactions among root-knot nematodes and Fusarium wilt fungi on host plants. Ann. Rev. Phytopathol., 25:317-338

Marschner J.1995. Mineral nutrition of higher plants. 2 nd ed. Academic Press , London.

Marschner, H. 1993. Zinc uptake from soils. In: Robson, A.D. (ed). Zinc in Soils and Plants, Kluwer, Dordrecht, The Netherlands, pp 59-77

Mayer, J.E., Pfeiffer, W.H. and Beyer, P. 2008. Biofortified crops to alleviate micronutrient malnutrition. Pl. & Soil, 11:166-70

Miley, W.N., Hardy, G.W. and Sturgis, M.B. 1969. Influence of boron, nitrogen and potassium on yield, nutrient

uptake and abnormalities of boron. Agron. J., 61:9-13

Miller, V.R. and Becker, Z.E. 1983. The role of microelements in cotton resistance to Verticillium wilt. Selskokhoz. Biol., 11:54-56

Mishra, B.N., Prasad, R., Gangaiah, B. and Shivakumar, B.G. 2006.Organic manures for increased productivity and sustained supply of micronutrients Zn and Cu in a rice-wheat cropping system. J. Sustainable Agri., 28:55-66

Murugesan, K. and Mahadevan, A. 1987. Control of Rhizoctonia bataticola of groundnut by trace elements. Int’l. J. Trop. Pl. Dis., 5:43-57

Nikolic, M., Romheld, F. and Merkt, N. 2000. Effect of bicarbonate on uptake and translocation of 59 Fe in two grapevine rootstocks differing in their resistance to Fe deficiency chlorosis. Vitis, 39:145-149

Nyomora, A.M.S., Brown, P.H. and Freeman, M. 1997. Foliar applied boron increased tissue boron concentration and nut set of almond. J. Amer. Soc. Hortl. Sci., 193:85-101

Pandey, S., Ceballos, H., Grandos, G. and Knapp, E. 1994. Develop maize that tolerates aluminium toxic soils. In: Stress tolerance breeding: Maize that resists insects, drought, nitrogen and acidic soils, G.S. Edmeades and D.F. Deutsch (eds.), CIMMYT, Mexico

Perkins, H. and Aronoff, M. 1956. Identification of blue- fluorescent compounds in boron deficient plants. Arch. Biochem. Biophys., 64:506-516

Pestana, M. 2000. Caracterização fisiológica e nutritiva da clorose férrica em citrinos. Avaliação dos mecanismos

de resistência aos efeitos do HCO- . Thesis for PhD degree in Agronomy, Universidade do Algarve, Faro, Portugal

Pestana, M., Correia, P.J, Varennes, A. de, Abadía, J. and Faria, E. A. 2001. The use of floral analysis to

diagnose the nutritional status of oranges trees. J. Pl. Nutr., 24:913-1923

Pestana, M., Varennes, D. and Faria, E.A. 2003. Diagnosis and correction of iron chlorosis in fruit trees: a review. Food, Agri. & Envir., 1:46-51

Pregno, L.M. and Armour, J.D. 1992. Boron deficiency and toxicity in potato cv. Sebago on an oxisol of the Atherton Tablelands, North Queensland. Aust. J. Exptl. Agri., 32:251-253

Rai, V. Prasad and Choudhary, S.K. 1984. Iron nutrition and symbiotic N 2 fixation of lentil (Lens culinaris) genotypes in calcareous soil. J. Pl. Nutr., 5:905-913

Rajaratinam, J.A. and Lowry, J.B. 1974. The role of boron in the oil-palm (Elaeis guineensis). Ann. Bot., 38:193-200

Ram, S.C., Bist, L.D. and Sirohi, S.C. 1989. Internal fruit necrosis of mango and its control. Acta Hort., 231:805-813

Rama Subramaniam, S., Subbiah, K., Duraiswami, V.P. and Surendran, U. 2006. Micronutrients and zinc solubilizing bacteria on yield and quality of grapes variety Thompson Seedless. Int’l. J. Soil.Sci., 1:1-7

Ramesh, S.A., Choimes, S. and Schachtman, D. 2004. Over- expression of an Arabidopsis zinc transporter in Hordeum vulgare increases short-term zinc uptake after zinc deprivation and seed zinc content. Pl. Mol Biol., 54:373-385

Rashid, A. Couvillon, G.A. and Jones, J.B. 1990. Assessment of Fe status of peach rootstocks by techniques used to distinguish chlorotic and non- chlorotic leaves. J Pl. Nutr., 13:285-307

Raychaudhary, S.P. and Govindrajan, S.V. 1969. Soils of India. Tech. Bull., Agri. No. 25, ICAR, New Delhi

Reingard, T.A. and Pashkar, T. 1959. Potato wart. Ukranian Academy of Sci., 46: 302-312

Reinhardt H. Howeler, Carlos A. Flor and Carlos A. Gonzalez . 1978. Diagnosis and correction of B deficiency in beans and mungbeans in a Mollisol from the Cauca Valley of Colombia. Agron. J., 70:493-497

Reis, E.M., Cook, R.J. and McNeal, B.L. 1982. Effect of mineral nutrition on take-all of wheat. Phytopathol., 72:224-229

Rerkasem, B., Lordkaew, S. and Dell, B. 1997. Boron requirement for reproductive development in wheat. Procs. XIII Int’l. Pl. Nutr. Colloq., Tokyo

Robin D. Graham, Julie S. Ascher and Simon C. Hynes. 1992. Selecting zinc-efficient cereal genotypes for soils of low zinc status. Pl. & Soil, 146:241-250

Rossetto, C.J., Furlani, P.R., Bortoletto, N., Quaggio, J.A. and Igue, T. 2000. Differential response of mango varieties to boron. Acta Hort., 509:259-264

Russell, E.W. 1973. Soil condition and plant growth. 10th ed. Longman Ltd., London, U.K., p 849

Samz, M. and Montanes, L. 1997. Diagnostic visual de la chlorosis ferrica. Information tecnica. Economica Agraria, 93:7-22

Schmitz, K.J. and Engel, G. 1973.Untersuchungen and Beobachtungen Zur Stippigkeit. Erwerbobstbau, 15:9-14

Shear, C.B .1975. Calcium related disorders of fruits and vegetables. HortSci. 10:361-365

Shear, C.B. and Faust, M. 1971. Value of various tissue analyses in determining the calcium status of the apple tree and fruit. In: Recent advances in plant nutrition. RN Samish (ed.), Gordon and Breach, New York, pp 75-98

Shelp, B.J. 1987. The composition of phloem exudate and xylem sap from broccoli (Brassica oleracea var. italica) supplied with NH 4 + , NO 3 or NH 4 NO 3 . J. Exptl. Bot., 38:1619-1636

Shelp, J. and Shattuck, V.I. 1987. Boron nutrition and mobility and its relation to elemental composition of greenhouse

grown root crops I. Comm. Soil. Plant. Ann., 10:143-162

Shinde, S.R. and Gangawane, L.R. 1987. Role of trace elements in the production of cellulases by Phoma herbarum causing leaf spot of groundnut. Ind. Bot. Rep., 6:99-100

Singh, D.B., Sharma, B.D. and Bhargava, R. 2003. Effect of boron and GA 3 for control of fruit cracking in pomegranate (Punica granatum). Curr. Agri., 27:125-127

Smith, J.N. and Comtrink, N.J. 2004. Effect of boron in nutrient solution on fruit production and quality greenhouse tomato. S. Afr. J. Pl. & Soil, 21: 188-191

Smith, R. B. and Hallmark, C. T. 1987. Selected chemical and physical properties of soils manifesting cotton root rot. Agron. J., 79:155-159

Smith,C.B. and Grene, G.M. 1982. Nitrogen and lime treatment effects on the nutrient balance of apples. Acta Hort., 82:294-295

Somashekar, R.K., Kulashekaran, M.D. and Satishchandra, P.M. 1983. Toxicity of heavy metals to some fungi. Int’l. J. Environ. Stud., 21:277-280

Stout, P. R. 1962. Introduction to the micronutrient elements. J. Agril. Food Chem., 10: 170

Strakhov, Y. and Yaroshenko.M.1959. Effect of trace elements on the relation between smut-producing agents and the host plant. Primen. Mikroelem. Sel’sk. Khoz. Med. Bakv., 195:373-380

Swinburne, T.R. 1986. Stimulation of disease development by siderophores and inhibition by chelated iron. In: T.R. Swinburne (ed.). Iron, siderophores and plant disease. Plenum Press, New York, pp 217-226

Tagliavini, M. and Rombola, A.D. 2001. Iron deficiency and chlorosis in orchard and vineyard ecosystems. Eur. J. Agron., 15:71-92

Takkar, P.N. 1999. Predominant micronutrient disorders of India. ICAR, New Delhi

Takkar, P.N. and Kaur, N.P. 1984. HCI method for Fe 2+ HCl estimation to resolve iron chlorosis in plant. J. Pl. Nutr., 7:81-90

Tandon, P.L. 1985. Peroxidase-catalyzed IAA oxidation in presence of cofactors and auxin protectors isolated from Eriophyes incited Zizyphus gall tissue. Cecidol. Int’l., 6:69-82

Valenzuele, I. and Romero, L. 1988. Biochemical indicators and iron index for the appraisal of the mineral status in leaves of cucumber and tomato. J. Pl. Nutr., 11:1177-1184

Vedie,Mand Le Normand, J.1984. Modulation of pathogenicity of Botrytis fabae and Botrytis cinerea by bacteria in the phylloplane of Vicia faba. Agronomie (Paris), 4:721-728

Viets, F.G. Jr., Boawn, L.C. and Crawford, C.L. 1954. Zinc contents and deficiency symptoms of 26 crops grown on a zinc-deficient soil. Soil Science, 78:308-315

Vladimirskaya, V. 1982.Effects of environmental conditions on clubroot susceptibility and yield of swede. Mikol. Fitopatol., 16:429-433

Waggoner, P.E. and Diamond, B. 1953. Role of chelation in causing and inhibiting the toxicity of lycomarismin. Phytopathol., 43:281-284

Walker, C.D., Robin D. Graham, James T. Madison, Earle E. Cary and Ross M. Welch. 1985. Effects of Ni deficiency on some nitrogen metabolites in cowpea (Vigna unguiculata L. Walp). Pl. Physiol., 79: 474-479

Wang, D.N. and Ko, W.H. 1975. Relationship between deformed-fruit disease of papaya and boron deficiency. Phytopathol., 65:445-447

Wear, J.I. and Patterson, R.M. 1962. Effect of soil pH and texture on the availability of water-soluble boron in the soil. Sci. Soc. Am. Procs., 26: 344-346

Welch, R.M. 1999. Importance of seed mineral nutrient reserves in crop growth and development. In: Rengel, Z. (ed.). Mineral nutrition of crops: Fundamental mechanisms and implications. Food Products Press, New York, pp 205–226

Welch, R.M. 2002. The impact of mineral nutrients in food crops on global human health. Pl. & Soil, 247:83-90

Welch, R.M. and Graham, R.D. 2004. Breeding for micronutrients in staple food crops from a human nutrition perspective. J. Exptl. Bot., 55:353-364

Welch, R.M., Combs Jr., G.F. and Duxbury, J.M. 1997. Toward a Greener Revolution. Issues in Sci. & Tech., 14:50-58

Wilkinson, H.F., Loneragan, J.F. and Quick, J.P. 1968. The movement of zinc to plant roots. Soil Sci. Soc. Amer. Procs., 32:831-833

Wojck, P. and Wojck, V. 2003. Effects of Boron fertilization on conference pear tree nutrition, fruit quality and storability. Pl. & Soil, 256:421-425

Wood, B.W. and Reilly, C.C. 2006. Nickel and plant disease. In: L. Gatnoff (ed). Nutrient elements and plant diseases. APS Press, St, Paul. Minn. 41:402-404

Wood, Bruce W., Reilly Charles, C. and Nyczepir Andrew, P. 2004. Mouse ear of pecan: a nickel deficiency. HortSci., 39:87-94

Zaher, N.A.M. 1985. Responses of tomato yellow leaf curl virus diseased plants to spraying with some microelements. Egypt. J. Phytopathol., 17:73-82

Downloads

Published

30-06-2009

Issue

Section

Focus

How to Cite

Raja, M. E. (2009). Importance of Micronutrients in the Changing Horticultural Scenario in India. Journal of Horticultural Sciences, 4(1), 1-27. https://doi.org/10.24154/jhs.v4i1.547

Similar Articles

91-100 of 306

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