03806naa a2200325 a 450000100080000000500110000800800410001902400510006010000190011124501190013026000090024952028310025865000190308965000180310865000160312665000280314265000140317065000110318465300170319565300370321265300260324965300250327565300240330065300100332465300250333465300180335970000190337770000140339677300700341012168352022-06-02       2008    bl uuuu     u00u1 u    #d7 ahttps://doi.org/10.1080/019041608021160682DOI1 aFAGERIA, N. K.  aThe role of nutrient efficient plants in improving crop yields in the twenty first century.h[electronic resource]  c2008  aIn the 21st century, nutrient efficient plants will play a major role in increasing crop yields compared to the 20th century, mainly due to limited land and water resources available for crop production, higher cost of inorganic fertilizer inputs, declining trends in crop yields globally, and increasing environmental concerns. Furthermore, at least 60% of the world's arable lands have mineral deficiencies or elemental toxicity problems, and on such soils fertilizers and lime amendments are essential for achieving improved crop yields. Fertilizer inputs are increasing cost of production of farmers, and there is a major concern for environmental pollution due to excess fertilizer inputs. Higher demands for food and fiber by increasing world populations further enhance the importance of nutrient efficient cultivars that are also higher producers. Nutrient efficient plants are defined as those plants, which produce higher yields per unit of nutrient, applied or absorbed than other plants (standards) under similar agroecological conditions. During the last three decades, much research has been conducted to identify and/or breed nutrient efficient plant species or genotypes/cultivars within species and to further understand the mechanisms of nutrient efficiency in crop plants. However, success in releasing nutrient efficient cultivars has been limited. The main reasons for limited success are that the genetics of plant responses to nutrients and plant interactions with environmental variables are not well understood. Complexity of genes involved in nutrient use efficiency for macro and micronutrients and limited collaborative efforts between breeders, soil scientists, physiologists, and agronomists to evaluate nutrient efficiency issues on a holistic basis have hampered progress in this area. Hence, during the 21st century agricultural scientists have tremendous challenges, as well as opportunities, to develop nutrient efficient crop plants and to develop best management practices that increase the plant efficiency for utilization of applied fertilizers. During the 20th century, breeding for nutritional traits has been proposed as a strategy to improve the efficiency of fertilizer use or to obtain higher yields in low input agricultural systems. This strategy should continue to receive top priority during the 21st century for developing nutrient efficient crop genotypes. This paper over views the importance of nutrient efficient plants in increasing crop yields in modern agriculture. Further, definitions and available methods of calculating nutrient use efficiency, mechanisms for nutrient uptake and use efficiency, role of crops in nutrient use efficiency under biotic and abiotic stresses and breeding strategies to improve nutrient use efficiency in crop plants have been discussed.  aabiotic stress  abiotic stress  agrain yield  anutrient use efficiency  aNutriente  aPlanta  aCrop species  aEficiência do uso de nutrientes  aEspécies de culturas  aEstresses abióticos  aEstresses bióticos  aPlant  aProdução de grãos  aRoot geometry1 aBALIGAR, V. C.1 aLI, Y. C.  tJournal of Plant Nutritiongv. 31, n. 6, p. 1121-1157, June 2008.