African Journal of
Agricultural Research

  • Abbreviation: Afr. J. Agric. Res.
  • Language: English
  • ISSN: 1991-637X
  • DOI: 10.5897/AJAR
  • Start Year: 2006
  • Published Articles: 6594

Review

Role of phosphorus in chickpea (Cicer arietinum L.) production

M. L. Dotaniya
  • M. L. Dotaniya
  • Indian Institute of Soil Science, Nabi Bagh, Berasia Road, Bhopal- 462 038, India.
  • Google Scholar
K. K. Pingoliya
  • K. K. Pingoliya
  • Department of Agricultural Chemistry and Soil Science, MPUA&T, Udaipur, India.
  • Google Scholar
M. Lata
  • M. Lata
  • Rajasthan University, Jaipur, India
  • Google Scholar
R. Verma
  • R. Verma
  • SKN College of Agriculture, Jobner, India.
  • Google Scholar
K. L. Regar
  • K. L. Regar
  • Banaras Hindu University, Varanasi, India
  • Google Scholar
P. Deewan
  • P. Deewan
  • SKN College of Agriculture, Jobner, India.
  • Google Scholar
C. K. Dotaniya
  • C. K. Dotaniya
  • Bundelkhand University, Jhansi, India
  • Google Scholar


  •  Received: 21 December 2013
  •  Accepted: 18 November 2014
  •  Published: 18 December 2014

References

Ahmed MA, Badr EA (2009). Effect of bio and mineral phosphorus fertilizer on the growth, productivity and nutritional value of some chickpea cultivars (Cicer arietinum L.) in newly cultivated land. Austr. J. Basic Appl. Sci. 3:4656-4664.
 
Ammal UB, Mathan KK, Mahimairaja S (2001). Effect of different levels of rock phosphate - sulphur granule on yield and nutrient availability. Indian J. Agric. Res. 35:166-170.
 
Arya RL, Kushwaha BL, Singh BN (2002). Effect of phosphorus management on growth, yield attributes and yield of maize-chickpea cropping system. Indian J. Pulse Res. 15:161-165.
 
Baboo R, Mishra SK (2001).Growth and pod production of cowpea (Vigna sinensis) as affected by inoculation, nitrogen & phosphorus. Ann. Agric. Res. 22:104-106.
 
Bhunia SR, Chauhan RPS, Yadav BS, Bhati AS (2006). Effect of phosphorus, irrigation and Rhizobium on productivity, water use and nutrient uptake in fenugreek (Trigonella foenum graecum). Indian J. Agron. 51:239-241.
 
Choudhary VK, Goswami VK (2005). Effect of phosphorus and sulphur fertilization on chickpea (Cicer arietinum L.) cultivar. Ann. Agric. Res. New Series. 26:322-325.
 
Cordell D, Drangert JO, White S (2009). The story of phosphorus: Global food security and food for thought. Global Environ. Change 19:292-305.
Crossref
 
Dadheech RC (2001). Influences of graded doses of phosphorus and indigenous plant growth regulators on N and P content and uptake of blackgram. 66th Annual Convention. Nat. Seminar Develop. Soil Sci. P. 139.
 
Das A, Patnaik US, Sudhishri S (2005). Response of vegetable pea (Pisum sativum) to sowing date and phosphorus under farm conditions. Indian J. Agron. 50(1):64-66.
 
Dotaniya ML, Meena VD (2013). Rhizosphere effect on Nutrient Availability in soil and Its Uptake by plants -A review. Proc. Nat. Acad. Sci., India Sec. B: Biol. Sci. 
 
Dotaniya ML, Datta SC, Biswas DR, Meena HM, Kumar K (2014a). Production of oxalic acid as influenced by the application of organic residue and its effect on phosphorus uptake by wheat (Triticum aestivum L.) in an Inceptisol of north India. Nat. Acad. Sci. Lett. 37(5):401-405.
Crossref
 
Dotaniya ML, Prasad D, Meena HM, Jajoria DK, Narolia GP, Pingoliya KK, Meena OP, Kumar K, Meena BP, Ram A, Das H, Chari MS, Pal S (2013a). Influence of phytosiderophore on iron and zinc uptake and rhizospheric microbial activity. Afr. J. Microbiol. Res. 7(51):5781-5788. 
 
Dotaniya ML (2014). Role of bagasse and pressmud in phosphorus dynamics. Lap Lambert Academic Publisher, Germany.
 
Dotaniya ML, Datta SC (2013). Impact of bagasse and press mud on availability and fixation capacity of phosphorus in an Inceptisol of north India. Sugar Tech. 16(1):109-112.
Crossref
 
Dotaniya ML, Datta SC, Biswas DR, Kumar K (2014b). Effect of organic sources on phosphorus fractions and available phosphorus in Typic Haplustept. J. Indian Soc. Soil Sci. 62(1):80-83.
 
Dotaniya ML, Datta SC, Biswas DR, Meena BP (2013b). Effect of solution phosphorus concentration on the exudation of oxalate ions by wheat (Triticum aestivum L.). Proc. Na. Acad. Sci. India Sec B: Biol. Sci. 83(3):305-309.
Crossref
 
Dotaniya ML, Pingoliya KK, Meena HM, Prasad D (2013c). Status and rational use of rock phosphate in agricultural crop production a review. Agric. Sust. Develop. 1(1):103-108.
 
Enania AR, Vyas AK (1994). Effect of phosphorus and zinc application on growth, biomass and nutrient uptake by chickpea in calcareous soil. Ann. Agric. Res. New Series, 15:397-399.
 
Fixen PE (2009). World fertilizer nutrient reserve: A review to the future. Better Crops 9(3):8-11.
 
Gupta A, Sharma VK, Sharma GD, Chopra P (2006). Effect of biofertilizer and phosphorus levels on yield attributes, yield, and quality of urdbeen (Vigan mungo). Indian J. Agron. 51:142-144.
 
Ingale GL, Deshmukh VA (1986). Response of gram, pea and lentil to phosphorus under irrigated condition in sequence of kharif paddy. PKV Res. J. 10:16-18.
 
Jarande NN, Mankar PS, Khawale VS, Kanase AA, Mendhe JT (2006). Response of chickpea (Cicer arietinum L.) to different levels of phosphorus through inorganic and organic sources. J. Soils Crops 16:240-243.
 
Jat RS, Ahalawat IPS (2004). Effect of vermicompost, biofertilizer and nutrient uptake by gram (Cicer arietinum) and their residual effect on fodder maize (Zea mays). Indian J. Agric. Sci. 74:359-61.
 
Jukanti AK, Gaur PM, Gowda CLL, Chibbar RN (2012). Nutritional quality and health benefits of chickpea (Cicer arietinum L.): a review. British J. Nutr. 108:S11-S26.
Crossref
 
Kahlon CS, Sharanappa CS, Kumar R (2006). Nutrient uptake, quality and balance of nutrients as influenced by phosphorus, bioinoculants, zinc and sulphur in cowpea. Environ Ecol. 1:220-223.
 
Khoja JR, Khangarot SS, Gupta AK, Kulhari AK (2002). Effect of fertility and biofertilizer on growth and yield of chickpea. Ann. Plant Soil Res. 4:357-358.
 
Krishna S, Yadav RS (1997). Effect of varying levels of P and S on concentration of copper, manganese and iron in chickpea. Legumes Res. 20:127-129.
 
Kumar A, Kushawaha HS (2006). Response of pigeon pea to sources and levels of phosphorus under rainfed condition. Indian J. Agron. 51:60-62.
 
Kumar J (2000). Response of chickpea to phosphorus and molybdenum in loamy sand. M. Sc. (Ag.) Thesis, SKRAU, Bikaner.
 
Kumar J, Sharma M (2005). Effect of phosphorus and molybdenum on yield and nutrient uptake by chickpea (Cicer arietinum L.). Adv. Plant Sci. 18:869-873.
 
Kumar V, Dwivedi VN, Tiwari DD (2009). Effect of phosphorus and iron on yield and mineral nutrition in chickpea. Ann. Plant Soil Res. 11:16-18.
 
Kushwaha VS (2007). Response of chickpea to biofertilizer, nitrogen, phosphorus fertilization under rainfed environment. J. Food legumes. 16:179-181.
 
Lakpale R, Shrivastava GK, Chaube NK, Singh AP, Joshi BS, Pandey RL (2003). Response of gram (Cicer arietinum L.) to integrated nutrient management in Vertisols of Chattisgarh plains. Indian J. Agric. Sci. 73:162-163.
 
Meena BL, Pareek BL, Kumar R, Singh AK (2010). Response of moth bean (Vigna acontifolia) cultivars on different levels of phosphorus. Environ. Ecol. 28:2614- 2617.
 
Meena KN, Pareek RG, Jat RS (2005). Effect of phosphorus and biofertilizers on yield and quality of chickpea. Ann. Agric. Res. New Series. 22:388-390.
 
Meena LR, Singh RK, Gautam RC (2001). Effect of conserved soil moisture, phosphorus levels and bacterial inoculation on dry matter production and uptake pattern of phosphorus by chickpea. Indian J. Pulse Res. 18:32-35.
 
Meena LR, Singh RK, Gautam RC (2002). Effect of moisture conservation practices, phosphorus levels and bacterial inoculation on chickpea under rainfed condition. Indian J. Agron. 47:398-404.
 
Meena LR, Singh RK, Gautam RC (2004). Response of chickpea (Cicer arietinum L.) to moisture conservation practices, phosphorus levels and bacterial inoculation under rainfed condition. Indian J. Trop. Agric. 22:49-60.
 
Mishra SK (2003). Effect of Rhizobium inoculation, nitrogen and phosphorus on root nodulation, protein production and nutrient uptake in cowpea. Ann. Agric. Res. New Series 24:139-144.
 
Narolia GP, Jajoria DK, Dotaniya ML (2013). Role of phosphorus, PSB and zinc in isabgol (Plantago ovata F.). LAP Lambert Academic Publishing, Germany.
 
Patel A, Namdeo KN, Saraiya AB (2001). Effect of phosphorus and growth regulator on growth, yield and nutrient uptake of black gram. Ann. Plant Soil Res. 7:41-43.
 
Patel CS, Patel JB, Suthar JV, Patel PM (2010). Effect of integrated nutrient management on cluster bean (Cyamopsis tetragonoloba L.) seed production cv. Pusa Navbhar. Int. J. Agric. Sci. 6:206-208.
 
Pingoliya KK, Dotaniya ML, Lata M (2014b). Effect of iron on yield, quality and nutrient uptake of chickpea (Cicer arietinum L.). Afr. J. Agric. Res. 9(37):2841-2845.
Crossref
 
Pingoliya KK, Dotaniya ML, Mathur AK (2013). Role of phosphorus and iron in chickpea (Cicer arietinum L.). Lap Lambert Academic Publisher, Germany.
 
Pingoliya KK, Mathur AK, Dotaniya ML, Jajoria DK, Narolia GP (2014a). Effect of phosphorus and iron levels on growth and yield attributes of chickpea (Cicer arietinum L.) under agroclimatic zone IV A of Rajasthan, India. Legume Res. 37(5):537-541.
Crossref
 
Pramanik K, Singh RK (2003). Effect of levels and mode of phosphorus and biofertilizers on chickpea under dryland conditions. Indian J. Agron. 48:294-296.
 
Raju MS, Verma SC, Ramaish NV (1991). Effect of phosphorus in relation to FYM Vs Rhizobium inoculation on nutrient uptake cultivars under rainfed condition. Indian J. Agric. Res. 25:43-48.
 
Ram SN, Dixit RS (2001). Growth, yield attributing parameters and quality of summer green gram as influenced by dates of sowing and phosphorus. Indian J. Agric. Res. 35:275-277.
 
Rathore DS, Purohit HS, Yadav BL (2010). Integrated phosphorus management on yield and nutrient uptake of urdbean under rainfed conditions of Southern Rajasthan. J. Food Legumes 23:128-131.
 
Reddy NRN, Ahalawat IPS (1998). Response of chickpea genotypes to irrigation and fertilizers under late sown conditions. Indian J. Agron. 43:95-101.
 
Sharma SK, Jat NL (2003). Effect of phosphorus and sulphur on growth and yield of cowpea (Vigna unguiculata L.). Ann. Agric. Res. New Series 24:215-216.
 
Sharma V, Abrol V (2007). Effect of phosphorus and zinc application on yield and uptake of phosphorus and zinc by chickpea under rainfed conditions. J. Food Legumes 20:49-51.
 
Shen J, Yuan L, Zhang J, Li H, Bai Z, Chen X, Zhang W, Zhang F (2011). Phosphorus dynamics: from soil to plant. Plant Physiol. 156:997-1005.
Crossref
 
Shivakumar BS, Balloli SS, Saraf CS (2004). Effect of sources and levels of phosphorus with and without seed inoculation on the performance of rainfed chickpea. Ann. Agric. Res. New Series. 25:320-326.
 
Shukla M, Patel RH, Verma R, Deewan P, Dotaniya ML (2013). Effect of bio-organics and chemical fertilizers on growth and yield of chickpea (Cicer arietinum L.) under middle Gujarat conditions. Vegetos. 26(1):183-187.
Crossref
 
Singh A, Vaishya RD (2001). Effect of weed management techniques and phosphorus levels on weed infestation and yield of late sown chickpea. Indian J. Pulse Res. 14:119-121.
 
Singh G, Sekhon HS, Ram H, Sharma P (2010). Effect of farmyard manure, phosphorus and phosphate solubilizing bacteria on nodulation, growth and yield of kabuli chickpea. J. Food Legumes. 23:226-229.
 
Singh ON, Sharma M, Dash R (2003). Effect of seed rate, phosphorus and FYM application on growth and yield of bold seeded lentil. Indian J. Pulse Res. 16:116-118.
 
Singh PN, Ram H (1992). Effect of phosphorus and sulphur on concentration and uptake of micronutrients in chickpea. J. Indian Soc. Soil Sci. 40:307-312.
 
Singh R, Prasad K (2008). Effect of vermicompost, Rhizobium and DAP on growth, yield and nutrient uptake by chickpea. J. Food Legumes 21:112-114.
 
Singh RS, Yadav MK (2008). Effect of phosphorus and biofertilizers on growth, yield and nutrient uptake of long duration pigeon pea under rainfed condition. J. Food Legumes 21:46-48.
 
Singh V, Singh PR, Khan N (1993). Effect of P and Fe application on the yield and nutrient content in chickpea. J. Indian Soc. Soil Sci. 41:186-187.
 
Smil V (2000). Phosphorus in the environment: Natural flows and human interference. Ann. Rev. Energy Environ. 25:53-88.
Crossref
 
Smit AL, Bindraban P, Schroder JJ, Conijn JG, Meer HGD (2009). Phosphorus in agriculture: global resources, trends and developments. Plant Res. Inter. Report 282, pp 36.
 
Srinivasarao C, Ganeshamurthy AN, Masood A, Singh RN (2007). Effect of phosphorus levels on zinc, iron, copper and manganese removal by chickpea genotypes in Typic Ustochrept. J. Food Legumes 20:45-48.
 
Srividya S, Prasad PVN, Srivinasa RV, Veeraraghavaiah R (2009). Influence of alternate source of phosphorus to conventional sources on the yield attributes and yield of chickpea. Legumes Res. 32:218-219.
 
Steen I (1998). Phosphorus availability in the 21st century: Management of a non-reneable resources. Phosphorus Potassium 217:25-31.
 
Sunder S, Pareek BL, Sharma SK (2003). Effect of phosphorus and zinc on dry matter, uptake of nutrients and quality of clusterbean (Cyamopsis tetragonoloba L.). Ann. Agric. Res. New Series 24:195-196.
 
Sune SV, Deshpande RM, Khawale VS, Baviskar PK, Gurao BP (2006). Effect of phosphorus and sulphur on growth and yield of linseed. J. Soils Crops 16:217-221.
 
Thenua OVS, Singh SP, Shivakumar BG (2010). Productivity and economics of chickpea (Cicer arietinum) + fodder sorghum (Sorghum bicolor) cropping systems as influenced by phosphorus sources, bio-fertilizers and irrigation to chickpea. Indian J. Agron. 55:22-27.
 
Tiwari BK, Dubey S, Mathew R (2005). Effect of phosphorus, sulphur and plant growth regulators on productivity and nutrient uptake of chickpea. Ann. Plant Soil Res. 7:181-184.
 
Tiwari VN, Upadhyay RM, Pandey RK (2001). Associate effect of diazotrophs and phosphorus on chickpea. Indian J. Pulse Res. 14:129-132.
 
Tripathy RK, Pandey N, Mishra PK, Rajput RS (2004). Branching behavior and production of chickpea as influenced by residual effect of cowdung blended nutrients applied to hybrid rice and direct application of nutrient to chickpea under hybrid rice-chickpea cropping system. Ann. Agric. Res. New Series 25:498-501.
 
Vaccari DA (2009). Phosphorus, a looming crisis. Scientific American June. pp. 42-47.
Crossref
 
Verma LK, Singh PR (2008). Effect of phosphorus on nitrogen fixing potential of Rhizobium and their response on yield of mung bean (Vigna radiate L.). An Asian J. Soil Sci. 3:310-312.
 
Yadav PS, Kameriya PR, Rathore S (2002). Effect of phosphorus and iron fertilization on yield, protein content and nutrient uptake in Mung bean on loamy sand soil. J. Indian Soc. Soil Sci. 50:225-226.