Abstract
In modern agriculture use of essential plant nutrients in crop production is very important to increase productivity and maintain sustainability of the cropping system. Use of nutrients in crop production is influenced by climatic, soil, plant, and social-economical condition of the farmers. Overall, nutrient use efficiency by crop plants is lower than 50 % under all agro-ecological conditions. Hence, large part of the applied nutrients is lost in the soil-plant system. The lower nutrient use efficiency is related to loss and/or unavailability due to many environmental factors. The low nutrient use efficiency is not only increase cost of crop production but also responsible for environmental pollution. Nutrient use efficiency in the literature is defined in several ways. The most common nutrient use efficiency is designated as nutrient efficiency ratio, agronomic efficiency, physiological efficiency, agrophysiological efficiency, apparent recovery efficiency, and utilization efficiency. Definition and methods of calculation of these deficiencies are presented. Improving nutrient use efficiency is essential from economic and environmental point of view. The most important strategies to improve nutrient use efficiency are the use of adequate rate, effective source, timing, and methods of application. In addition, decreasing abiotic and biotic stresses and use of nutrient efficient crop species and genotypes within species are also important in increasing nutrient use efficiency.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Similar content being viewed by others
References
Adkinson D (1990) Influence of root system morphology and development on the need for fertilizer and efficiency of use. In: Baligar VC, Duncan RR (eds) Crops as enhancers of nutrient use. Academic, San Diego, pp 411–451
Agrama H (2006) Application of molecular markers in breeding for nitrogen use efficiency. J Crop Improv 15:175–211
Alam SM (1999) Nutrient uptake by plants under stress conditions. In: Pessarakli M (ed) Handbook of plant and crop stress, 2nd edn. Marcel Dekker Inc, New York, pp 285–313
Baligar VC, Bennett OL (1986a) Outlook on fertilizer use efficiency in the tropics. Fertil Res 10:83–96
Baligar VC, Bennett OL (1986b) NPK-fertilizer efficiency. A situation analysis for the tropics. Fertil Res 10:147–164
Baligar VC, Duncan RR (eds) (1990) Crops as enhancers of nutrient use. Academic, San Diego
Baligar VC, Fageria NK (1997) Nutrient use efficiency in acid soils: nutrient management and plant use efficiency. In: Monitz AC, Furlani AMC, Fageria NK, Rosolem CA, Cantarells H (eds) Plant-soil interactions at low pH: sustainable agriculture and forestry production. Brazilian Soil Science Society, Campinas, pp 75–93
Baligar VC, Fageria NK (1999) Plant nutrient efficiency: towards the second paradigm. In: Siqueira JO, Moreira FMS, Lopes AS, Guilherme V, Faquin AE, Neto F, Carvalho JG (eds) Soil fertility, soil biology and plant nutrition interrelationships. Brazilian Soil Science Society-Federal University of Lavras Soil Science Department (SBCS/UFLA/DCS), Lavras, pp 183–204
Baligar VC, Fageria NK, Elrashidi MA (1998) Toxicity and nutrient constraints in root growth. Hort Sci 36:960–965
Baligar VC, Fageria NK, He Z (2001) Nutrient use efficiency in plants. Commun Soil Sci Plant Anal 31:921–950
Barber SA (1976) Efficient fertilizer use. In: Patterson FL (ed) Agronomic research for food, Special publication 26. American Society of Agronomy, Madison, pp 13–29
Barber SA (1995) Soil nutrient bioavailability: a mechanistic approach, 2nd edn. Wiley, New York
Blair G (1993) Nutrient efficiency—what do we really mean. In: Randall PJ, Delhaize E, Richards RA, Munns R (eds) Genetic aspects of plant mineral nutrition. Kluwer Academic Publishers, Dordrecht, pp 205–213
Borlaug NE, Doswell CR (1994) Feeding a human population that increasingly crowds a fragile planet 15th world congress of soil science. Acapulco, Mexico, Supplement to Trans, 10 p
Clark RB (1982) Plant response to mineral element toxicity and deficiency. In: Christiansen MN, Lewis CF (eds) Breeding plants for less favorable environments. Wiley, New York, pp 71–73
Clark RB (1990) Physiology of cereals for mineral nutrient uptake, use, and efficiency. In: Baligar VC, Duncan RR (eds) Crops as enhancers of nutrient use. Academic, San Diego, pp 131–209
Clark RB, Baligar VC (2000) Acidic and alkaline soil constraints on plant mineral nutrition. In: Wilkinson RW (ed) Plant-environment interactions. Marcel Dekker Inc, New York, pp 113–177
Clark RB, Duncan RR (1991) Improvement of plant mineral nutrition through breeding. Field Crops Res 27:219–240
Coleman DC, Cole CV, Elliott ET (1984) Decomposition, organic matter turnover and nutrient dynamics in agroecosystems. In: Lowrance R, Stinner BR, House GJ (eds) Agricultural ecosystems: unifying concepts. Wiley-Interscience, New York, pp 83–104
Curl EA, Truelove B (1986) The rhizosphere. Springer, New York
Dudal R (1976) Inventory of the major soils of the world with special reference to mineral stress hazards. In: Wright MJ (ed) Plant adaptation to mineral stress in problem soils. Cornell University Press, Ithaca, pp 3–13
Duncan RR, Baligar VC (1990) Genetics, breeding and physiological mechanisms of nutrient uptake and use efficiency: an overview. In: Baligar VC, Duncan RR (eds) Crops as enhancers of nutrient use. Academic, San Diego, pp 3–35
Duncan RR, Carrow RN (1999) Turfgrass—molecular genetic improvement for abiotic/edaphic stress environment. Adv Agron 67:233–306
Engelhard AW (ed) (1989) Soil borne plant pathogens management of diseases with macro-and microelements. The American Phytopathological Society Press, St. Paul
Fageria NK (1992) Maximizing crop yields. Marcel Dekker Inc, New York
Fageria NK (2013) The role of plant roots in crop production. CRC Press/Taylor & Francis Group, Florida
Fageria NK, Baligar VC (1994) Screening crop genotypes for mineral stresses. In: Maranville JW, Baligar VC, Duncan RR, Yohe JM (eds) Adaptation of plants to soil stress. University of Nebraska, INTSORMIL-USAID, Lincoln, pp 152–159
Fageria NK, Baligar VC (2005) Enhancing nitrogen use efficiency in crop plants. Adv Agron 88:97–185
Fageria NK, Baligar VC, Clark RB (2002) Micronutrients in crop production. Adv Agron 77:185–268
Fageria NK, Baligar VC, Clark RB (2006) Physiology of crop production. Food Product Press/The Haworth Press Inc, New York
Fageria NK, Baligar VC, Li YC (2008) The role of nutrient efficient plants in improving crop yields in twenty first century. J Plant Nutr 31:1121–1157
Fageria NK, Barbosa Filho MP, Moreira A, Guimaraes CM (2009) Foliar fertilization of crop plants. J Plant Nutr 32:1044–1063
Fageria NK, Baligar VC, Jones CA (2011) Growth and mineral nutrition of field crops, 3rd edn. CRC Press/Taylor & Francis Group, Boca Raton
FAO (2013) Food and Agricultural Organization. FAOSTAT. http://faostat.fao.org/Rome
Foy CD (1983) The physiology of plant adaptation to mineral stress. Iowa State J Res 54:355–391
Foy CD (1984) Physiological effects of hydrogen, aluminum and manganese toxicities in acid soils. In: Adams F (ed) Soil acidity and liming, 2nd edn, Agronomy monograph. American Society of Agronomy, Madison, pp 57–97
Gerloff GC (1987) Intact-plant screening for tolerance of nutrient-deficiency stress. In: Gabelman WH, Loughman BC (eds) Genetic aspects of plant mineral nutrition. Martinus Nijhoff Publisher, The Hague, pp 55–68
Gerloff GC, Gabelman WH (1983) Genetic basis of inorganic plant nutrition. In: Lauchli A, Bieleski RL (eds) Inorganic plant nutrition, vol 15B, Encyclopedia and plant physiology, new series. Springer, New York, pp 453–480
Gourley CJP, Allan DL, Russell MP (1994) Plant nutrient efficiency: a comparison of definitions and suggested improvement. Plant Soil 158:29–37
Graham RD (1984) Breeding for nutritional characteristics in cereals. In: Tinker PB, Lauchli A (eds) Advances in plant nutrition, vol 1. Praeger Publisher, New York, pp 57–102
Graham RD, Webb MJ (1991) Micronutrients and disease resistance and tolerance in plants. In: Mortvadt JJ, Cox FR, Shuman LM, Welch RM (eds) Micronutrients in agriculture, 2nd edn, Soil science society American book series no. 4. Soil Science Society of America, Madison, pp 329–370
Gupta RK, Abrol IP (1990) Salt affected soils: their reclamation and management for crop production. In: Lal R, Stewart BA (eds) Soil degradation, vol 11, Advances in soil science. Springer, New York, pp 223–288
Hauck R (1985) Slow-release and bioinhibitor-amended nitrogen fertilizers. In: Engelstad OP (ed) Fertilizer technology and use. Soil Science Society of America, Madison, pp 293–322
Hendrickson L (1991) Exploring urease inhibitor. Solution (Manchester) 35:36–50
Hendrickson LL (1992) Corn yield response to the urease inhibitor NBPT: five year summary. J Prod Agric 5:131–137
Huber DM (1980) The role of mineral nutrition in defense. In: Horsfall JG, Cowling EB (eds) Plant pathology an advanced treaty. Academic, New York, pp 381–406
Kannan S (1990) Role of foliar fertilization on plant nutrition. In: Baligar VC, Duncan RR (eds) Crops as enhancers of nutrient use. Academic, San Diego, pp 313–348
Kiss S, Simihaian M (2002) Improving efficiency of urea fertilizers by inhibition of soil urease activity. Kluwer Academic Publishers, Dordrecht
Lyda SD (1981) Alleviating pathogen stress. In: Arkin GF, Taylor HM (eds) Modifying the root environment to reduce crop stress, ASAE monograph no. 4. American Society of Agricultural Engineers, St. Joseph, pp 195–214
Maas EV (1986) Salt tolerance of plants. Appl Agric Res 1:12–26
Marshner H (1995) Mineral nutrition of higher plants, 2nd edn. Academic, New York
Masclaux-Daubresse C, Daniel-Vedele F, Dechorgnat J, Chardon F, Gaufichon L, Suzuki A (2010) Nitrogen uptake, assimilation and remobilization in plants: challenges for sustainable and productive agriculture. Ann Bot 105:1141–1157
Mengel K, Kirkby EA (2001) Principles of plant nutrition, 3rd edn. International Potash Institute, Berne
Pathak RR, Lochab S, Raghuram N (2011) Plant systems: improving plant nitrogen-use efficiency. In: Moo-Young M (ed) Comprehensive biotechnology, vol 4, 2nd edn. Elsevier, New York, pp 209–218
Paul EA, Clark LE (1996) Soil microbiology and biochemistry. Academic, San Diego
Peoples MB, Freney JR, Mosier AR (1995) Minimizing gaseous losses of nitrogen. In: Bacon PE (ed) Nitrogen fertilization in the environment. Marcel Dekker Inc, New York, pp 565–602
Prasad R, Power JE (1995) Nitrification inhibitors for agriculture, health and environment. Adv Agron 54:233–281
Sanders FE, Tinker PB, Black RL, Palmerley SM (1977) The development of endomycorrhizal root system. I. Spread of infection and growth promoting effects with four species of vesicular-arbuscular mycorrhizae. New Phytol 78:257–268
Sauerbeck DR, Helal HM (1990) Factors affecting the nutrient efficiency in plants. In: El Balsam N, Dambroth M, Loughman BC (eds) Genetic aspects of plant mineral nutrition. Kluwer Academic Publishers, Dordrecht, pp 11–17
Smith SE, Robson AD, Abbott LK (1993) The involvement of mycorrhizas in assessment of genetically dependent efficiency of nutrient uptake and use. In: Randall PJ, Delhaize E, Richards RA, Munns R (eds) Genetic aspects of plant mineral nutrition. Kluwer Academic Publishers, Dordrecht, pp 221–231
Sturmer SL, Siqueira JO (2006) Diversity of arbuscular mycorrhizal fungi in Brazilian ecosystems. In: Moreira FMS, Siqueira JO, Brussaard L (eds) Soil biodiversity in Amazonian and other Brazilian ecosystems. CABI Publishing, Wallingford, pp 206–235
Subbarao GV, Sahrawat KL, Berry WL, Nakahara K, Ishikawa T, Watanabe T, Suenaga K, Rondon M, Rao IM (2006) Scope and strategies for regulation of nitrification in agricultural systems- challenges and opportunities. Crit Rev Plant Sci 25:302–335
Szabolcs I (1979) Review of research on salt-affected soils, Nature resource research 15. UNESCO Press, Paris, p 137
Trenkel ME (2010) Slow- and controlled-release and stabilized fertilizers: an option for enhancing nutrient use efficiency in agriculture. International Fertilizer Industry Association (IFA), Paris
Vinod KK, Heuer S (2012) Approaches towards nitrogen- and phosphorus-efficient rice. AoB PLANTS 2012:pls028. doi:10.1093/aobpla/pls028
von Uexkull HR, Mutert E (1995) Global extent, development and economic impact of acid soils. In: Date RA, Grundon NJ, Raymont GE, Probert ME (eds) Plant–soil interactions at low pH: principles and management. Kluwer Academic Publishers, Dordrecht, pp 5–19
Vose PB (1984) Effect of genetic factors on nutritional requirement of plants. In: Vose PB, Blixt SG (eds) Crop breeding—a contemporary basis. Pergamon Press, Oxford, pp 67–114
Vose PB (1987) Genetic aspects of mineral nutrition-progress to date. In: Gabelman WH, Loughman BC (eds) Genetic aspects of plant mineral nutrition. Martinus Nijhoff Publisher, Boston, pp 3–13
Xu C, Fisher R, Wullschleger SD, Wilson CJ, Cai M (2012) Toward a mechanistic modeling of nitrogen limitation on vegetation dynamics. PLoS ONE 7(5):e37914. doi:10.1371/journal.pone.0037914
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer India
About this chapter
Cite this chapter
Baligar, V.C., Fageria, N.K. (2015). Nutrient Use Efficiency in Plants: An Overview. In: Rakshit, A., Singh, H.B., Sen, A. (eds) Nutrient Use Efficiency: from Basics to Advances. Springer, New Delhi. https://doi.org/10.1007/978-81-322-2169-2_1
Download citation
DOI: https://doi.org/10.1007/978-81-322-2169-2_1
Publisher Name: Springer, New Delhi
Print ISBN: 978-81-322-2168-5
Online ISBN: 978-81-322-2169-2
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)