Derleme
BibTex RIS Kaynak Göster

Factors Affecting Nitrogen Use Efficiency (NUE): Meta Analysis

Yıl 2023, Cilt: 10 Sayı: 2, 231 - 242, 31.07.2023
https://doi.org/10.19159/tutad.1260531

Öz

Nitrogen (N) is an essential and limiting nutrient for crop production, as it is a structural part of plants and is involved in various processes. Worldwide, agricultural soils lack one or more essential nutrients, and nitrogen is one of them. Adding a sufficient amount of N will increase production. However, the overuse of N and loss of N from the soil-plant system is detrimental to the environment and results in economic losses. Nitrogen has reactive forms like ammonia, ammonium, nitrate, nitrite, nitric oxide, and nitrous oxide. Some reactive forms of N are harmful to humans, animals, plants, and microbial ecology. Nitrate can cause the eutrophication of surface water and contamination of groundwater. Drinking nitrate-contaminated water can cause methemoglobinemia and other health issues. Nitrous oxide emission depletes the ozone layer and contributes to climate change. Ammonia emissions contribute to acid rain and are also responsible for nitrous oxide emissions. This review addresses different factors/pathways/circumstances that contribute to the loss of N from the soil-plant system and reduce nitrogen use efficiency (NUE). Different factors influence NUE like ammonia volatilization, nitrification, denitrification, immobilization, leaching, runoff, temperature, soil pH, soil texture, rainfall and irrigation, soil salinity, tillage, weeds, pests, diseases, N loss from plants, fires, crop rotation, crop nutrition, crop varieties, and nitrogen management (right time, right source, right place, and right rate/amount).

Kaynakça

  • Abdullah Faraj, B., 2013. Evaluation of nitrogen use efficiency (NUE) in wheat. Master’s Thesis, University of Adelaide, Australia.
  • Agbeshie, A.A., Abugre, S., Atta-Darkwa, T., Awuah, R., 2022. A review of the effects of forest fire on soil properties. Journal of Forestry Research, 33: 1419-1441.
  • Akhtar, M., Hussain, F., Ashraf, M.Y., Qureshi, T.M., Akhter, J., Awan, A.R., 2012. Influence of salinity on nitrogen transformations in soil. Communications in Soil Science and Plant Analysis, 43(12): 1674-1683.
  • Altieri, M.A., Nicholls, C.I., Fritz, M.A., 2005. Manage Insects on Your Farm: A Guide to Ecological Strategies. Sustainable Agriculture Research and Education (SARE), USA.
  • Anonymous, 2002. Nitrification. United States Environmental Protection Agency, (https://www.epa. gov/sites/default/files/2015-09/documents/nitrificati on_1.pdf).
  • An, N., Wei, W., Qiao, L., Zhang, F., Christie, P., Jiang, R., Dobermann, A., Goulding, K.W.T., Fan, J., Fan, M., 2018. Agronomic and environmental causes of yield and nitrogen use efficiency gaps in Chinese rice farming systems. European Journal of Agronomy, 93: 40-49.
  • Anas, M., Liao, F., Verma, K.K., Sarwar, M.A., Mahmood, A., Chen, Z.-L., Li, Q., Zeng, X.-P., Liu, Y., Li, Y.-R., 2020. Fate of nitrogen in agriculture and environment: Agronomic, eco-physiological and molecular approaches to improve nitrogen use efficiency. Biological Research, 53(1): 1-20.
  • Argyropoulou, K., Salahas, G., Papasavvas, A., Hela, D., 2015. Impact of nitrogen deficiency on biomass production, morphological and biochemical characteristics of sweet basil (Ocimum basilicum L.) plants, cultivated aeroponically. Journal of International Scientific Publications: Agriculture & Food, 3: 32-42.
  • Aulakh, M.S., Malhi, S.S., 2004. Fertilizer nitrogen use efficiency as influenced by interactions with other nutrients. In: A.R. Mosier, J.K. Syers and J.R. Freney (Eds.), Agriculture and the Nitrogen Cycle: Assessing the Impacts of Fertilizer use on Food Production and the Environment, Island Press Washington, DC, USA, Vol. 65, pp. 181-192.
  • Aulakh, M.S., Rennie, D.A., Paul, E.A., 1984. The influence of plant residues on denitrification rates in conventional and zero tilled soils. Soil Science Society of America Journal, 48(4): 790-794.
  • Azimi, S., Kaur, T., Gandhi, T.K., 2021. A deep learning approach to measure stress level in plants due to nitrogen deficiency. Measurement, 173: 108650.
  • Aziz, T., Wakeel, A., Shahzad, A.N., Rees, R., Sutton, M., 2022. Rethinking nitrogen use: Need to plan beyond present. In: T. Aziz, A. Wakeel, M.A. Watto, M. Sanaullah, M.A. Maqsood, A. Kiran (Eds.), Nitrogen Assessment Pakistan as a Case-Study, Academic Press, pp. 1-11.
  • Balasubramanian, V., Alves, B., Aulakh, M., Bekunda, M., Cai, Z., Drinkwater, L., Mugendi, D., Kessel, C., Oenema, O., 2004. Crop, environmental and management factors affecting nitrogen use efficiency. In: A.R. Mosier, J.K. Syers and J.R. Freney (Eds.), Agriculture and the Nitrogen Cycle: Assessing the Impacts of Fertilizer Use on Food Production and the Environment, Island Press, pp. 19-33.
  • Baligar, V.C., Fageria, N.K., He, Z.L., 2001. Nutrient use efficiency in plants. Communications in Soil Science and Plant Analysis, 32(7-8): 921-950.
  • Bell, M.J., 2014. A Review of Nitrogen Use Efficiency in Sugarcane. Sugar Research Australia Limited.
  • Benincasa, P., Guiducci, M., Tei, F., 2011. The nitrogen use efficiency: meaning and sources of variation-case studies on three vegetable crops in central Italy. HortTechnology, 21(3): 266-273.
  • Brauer, E.K., Shelp, B.J., 2010. Nitrogen use efficiency: Re-consideration of the bioengineering approach. Botany, 88(2): 103-109.
  • Brennan, J., Hackett, R., McCabe, T., Grant, J., Fortune, R.A., Forristal, P.D., 2014. The effect of tillage system and residue management on grain yield and nitrogen use efficiency in winter wheat in a cool Atlantic climate. European Journal of Agronomy, 54: 61-69.
  • Brust, G.E., 2019. Management Strategies for Organic Vegetable Fertility. Safety and Practice for Organic Food, Academic Press.
  • Cameron, K.C., Di, H.J., Moir, J.L., 2013. Nitrogen losses from the soil/plant system: A review. Annals of Applied Biology, 162(2): 145-173.
  • Certini, G., 2005. Effects of fire on properties of forest soils: A review. Oecologia, 143(1): 1-10.
  • Chen, W., Hou, Z., Wu, L., Liang, Y., Wei, C., 2010. Effects of salinity and nitrogen on cotton growth in arid environment. Plant and Soil, 326(1): 61-73.
  • Cui, Z., Wang, G., Yue, S., Wu, L., Zhang, W., Zhang, F., Chen, X., 2014. Closing the N-use efficiency gap to achieve food and environmental security. Environmental Science & Technology, 48(10): 5780-5787.
  • Davis, J., 2007. Nitrogen Efficiency and Management. United State Department of Agriculture (USDA) and National Resource Conservation Service (NRCS).
  • De Klein, C.A.M., Van Logtestijn, R.S.P., 1996. Denitrification in grassland soils in the Netherlands in relation to irrigation, N-application rate, soil water content and soil temperature. Soil Biology and Biochemistry, 28(2): 231-237.
  • De Laporte, A., Banger, K., Weersink, A., Wagner-Riddle, C., Grant, B., Smith, W., 2021. Economic and environmental consequences of nitrogen application rates, timing and methods on corn in Ontario. Agricultural Systems, 188: 103018.
  • De Ruijter, F.J., Huijsmans, J.F.M., 2019. A methodology for estimating the ammonia emission from crop residues at a national scale. Atmospheric Environment: X, 2: 100028.
  • DeBano, L.F., 1991. The Effect of Fire on Soil Properties [General Technical Report (GTR)]. Rocky Mountain Research Station, USA.
  • Demir, Z., Keçeci, M., Tunç, A.E., 2021. Effects of nitrogen fertigation on yield, quality components, water use efficiency and nitrogen use efficiency of silage maize (Zea mays L.) as the second crop. Journal of Plant Nutrition, 44(3): 373-394.
  • Duan, Y., Shi, X., Li, S., Sun, X., He, X., 2014. Nitrogen use efficiency as affected by phosphorus and potassium in long-term rice and wheat experiments. Journal of Integrative Agriculture, 13(3): 588-596.
  • Eickhout, B., Bouwman, A.F., van Zeijts, H., 2006. The role of nitrogen in world food production and environmental sustainability. Agriculture, Ecosystems & Environment, 116(1): 4-14.
  • Fageria, N.K., 2014. Nitrogen Management in Crop Production. CRC Press (Taylor & Francis Group).
  • Fageria, N.K., Baligar, V.C., 2005. Enhancing Nitrogen Use Efficiency in Crop Plants. Elsevier.
  • Fagi, A.M., De Datta, S.K., 1981. Environmental factors affecting nitrogen efficiency in flooded tropical rice. Fertilizer Research, 2(1): 53-67.
  • Flis, S., 2017. The 4Rs in crop nitrogen research. Crops and Soils Magazine, 50(2): 18-20.
  • Fonseca, F., De Figueiredo, T., Nogueira, C., Queirós, A., 2017. Effect of prescribed fire on soil properties and soil erosion in a Mediterranean mountain area. Geoderma, 307: 172-180.
  • Gao, Q., Li, C., Feng, G., Wang, J., Cui, Z., Chen, X., Zhang, F., 2012. Understanding yield response to nitrogen to achieve high yield and high nitrogen use efficiency in rainfed corn. Agronomy Journal, 104(1): 165-168.
  • Gholamshahi, M., Ghanbari, A., Saffari, M., Izadi Darbandi, E., Samaie, M., 2016. Effect of nitrogen fertilizer on weeds growth and emergence and yield and yield components of corn (Zea mays L.). Journal of Iranian Plant Protection Research, 30(3): 416-425.
  • Giri, A., Heckathorn, S., Mishra, S., Krause, C., 2017. Heat stress decreases levels of nutrient-uptake and -assimilation proteins in tomato roots. Plants, 6(1): 6.
  • Han, J., Shi, J., Zeng, L., Xu, J., Wu, L., 2015b. Effects of nitrogen fertilization on the acidity and salinity of greenhouse soils. Environmental Science and Pollution Research, 22(4): 2976-2986.
  • Han, M., Okamoto, M., Beatty, P.H., Rothstein, S.J., Good, A.G., 2015a. The genetics of nitrogen use efficiency in crop plants. Annual Review of Genetics, 49: 269-289.
  • Hilton, B.R., Fixen, P.E., Woodard, H.J., 1994. Effects of tillage, nitrogen placement, and wheel compaction on denitrification rates in the corn cycle of a corn‐oats rotation. Journal of Plant Nutrition, 17(8): 1341-1357.
  • Hirel, B., Le Gouis, J., Ney, B., Gallais, A., 2007. The challenge of improving nitrogen use efficiency in crop plants: Towards a more central role for genetic variability and quantitative genetics within integrated approaches. Journal of Experimental Botany, 58(9): 2369-2387.
  • Hirel, B., Tétu, T., Lea, P.J., Dubois, F., 2011. Improving nitrogen use efficiency in crops for sustainable agriculture. Sustainability, 3(9): 1452-1485.
  • Hu, A., Tang, T., Liu, Q., 2018. Nitrogen use efficiency in different rice-based rotations in southern China. Nutrient Cycling in Agroecosystems, 112(1): 75-86.
  • Huang, S., Zhao, C., Zhang, Y., Wang, C., 2017. Nitrogen use efficiency in rice. In: Amanullah and S. Fahad (Eds.), Nitrogen in Agriculture, IntechOpen, pp. 187-208.
  • Ihara, H., Kato, N., Takahashi, S., Nagaoka, K., 2014. Effect of soil solarization on subsequent nitrification activity at elevated temperatures. Soil Science and Plant Nutrition, 60(6): 824-831.
  • Jan, T., Jan, M.T., Arif, M., Akbar, H., Ali, S., 2007. Response of wheat to source, type and time of nitrogen application. Sarhad Journal of Agriculture, 23(4): 871-880.
  • Jones, C., Brown, B.D., Engel, R., Horneck, D., Olson-Rutz, K., 2013. Factors Affecting Nitrogen Fertilizer Volatilization. Montana State University Extension.
  • Knobeloch, L., Salna, B., Hogan, A., Postle, J., Anderson, H., 2000. Blue babies and nitrate-contaminated well water. Environmental Health Perspectives, 108(7): 675-678.
  • Koffi, D., Vincent, B.B., Valere, M.C., 2016. Effect of nitrogen fertilizer on yield and nitrogen use efficiency of four aromatic rice varieties. Emirates Journal of Food and Agriculture, 28(2): 126-135.
  • Kubota, H., Iqbal, M., Quideau, S., Dyck, M., Spaner, D., 2018. Agronomic and physiological aspects of nitrogen use efficiency in conventional and organic cereal-based production systems. Renewable Agriculture and Food Systems, 33(5): 443-466.
  • Lea-Cox, J.D., Syvertsen, J.P., 1993. Salinity reduces water use and nitrate-n-use efficiency of citrus. Annals of Botany, 72(1): 47-54.
  • Lü, H., Liang, W., Wang, G., Connor, D.J., Rimmington, G.M., 2009. A simulation model assisted study on water and nitrogen dynamics and their effects on crop performance in the wheat-maize system: (II) model calibration, evaluation and simulated experimentation. Frontiers of Agriculture in China, 3(2): 109-121.
  • Ma, T., Chen, K., He, P., Dai, Y., Yin, Y., Peng, S., Ding, J., Yu, S., Huang, J., 2022. Sunflower photosynthetic characteristics, nitrogen uptake, and nitrogen use efficiency under different soil salinity and nitrogen applications. Water, 14(6): 982.
  • Mahler, R.L., Tayor, R., Porter, E., 1990. Nitrate and Groundwater. University of Idaho, Cooperative Extension System, Agricultural Experiment Station, College of Agriculture.
  • Meng, X., Zhu, Y., Yin, M., Liu, D., 2021. The impact of land use and rainfall patterns on the soil loss of the hillslope. Scientific Reports, 11(1): 16341.
  • Min, W., Hou, Z., Ma, L., Zhang, W., Ru, S., Ye, J., 2014. Effects of water salinity and N application rate on water- and N-use efficiency of cotton under drip irrigation. Journal of Arid Land, 6(4): 454-467.
  • Misselbrook, T., Bai, Z., Cai, Z., Cao, W., Carswell, A., Cowans, N., Cui, Z., Chadwick, D., Emmett, B., Goulding, K., Jiang, R., Jones, D., Ju, X., Liu, H., Lu, Y., Ma, L., Powlson, D., M. Rees, R., Skiba, U., Smith, P., Sylvester-Bradley, R., Williams, J., E., Wu, L., Xu, M., Xu, W., Zhang, F., Zhang, J., Zhou, K., Liu, X., 2022. Progress on improving agricultural nitrogen use efficiency: UK-China virtual joint centers on nitrogen agronomy. Frontiers of Agricultural Science and Engineering, 9(3): 475-489.
  • Murtaza, G., Azooz, M.M., Murtaza, B., Usman, Y., Saqib, M., 2013. Nitrogen-use-efficiency (NUE) in plants under NaCl stress. In: P. Ahmad, M.M. Azooz and M.N.V. Prasad (Eds.), Salt Stress in Plants: Signalling, Omics and Adaptations, Springer, New York, pp. 415-437.
  • Nandy (Datta), P., Das, S., Ghose, M., Spooner-Hart, R., 2007. Effects of salinity on photosynthesis, leaf anatomy, ion accumulation and photosynthetic nitrogen use efficiency in five Indian mangroves. Wetlands Ecology and Management, 15(4): 347-357.
  • Osman, A., 2008. Effects of fires on the soil physical and chemical properties and the soil seed bank in albaja area at white nile state, Sudan. Master’s Thesis, University of Khartoum, Sudan.
  • Pan, X., Baquy, M.A.-A., Guan, P., Yan, J., Wang, R., Xu, R., Xie, L., 2020. Effect of soil acidification on the growth and nitrogen use efficiency of maize in Ultisols. Journal of Soils and Sediments, 20(3): 1435-1445.
  • Pearson, J., Clough, E.C.M., Woodall, J., Havill, D.C., Zhang, X.-H., 1998. Ammonia emissions to the atmosphere from leaves of wild plants and Hordeum vulgare treated with methionine sulphoximine. New Phytologist, 138(1): 37-48.
  • Poffenbarger, H., Coyne, M.S., Frye, W.W., 2018. Nitrogen in soils/cycle. Reference Module in Earth Systems and Environmental Sciences, Elsevier.
  • Raun, W.R., Johnson, G.V., 1999. Improving nitrogen use efficiency for cereal production. Agronomy Journal, 91(3): 357-363.
  • Raun, W.R., Schepers, J.S., 2008. Nitrogen management for improved use efficiency. In: J.S. Schepers and W.R. Raun (Eds.), Nitrogen in Agricultural Systems, John Wiley & Sons, Ltd., pp. 675-693.
  • Rawal, N., Pande, K.R., Shrestha, R., Vista, S.P., 2022. Nutrient use efficiency (NUE) of wheat (Triticum aestivum L.) as affected by NPK fertilization. Plos One, 17(1): e0262771.
  • Raza, S., Watto, M.A., Irshad, A., Nasim, M., Zhao, X., 2022. Nitrogen sinks in the agro-food system of Pakistan. In: T. Aziz, A. Wakeel, M.A. Watto, M. Sanaullah, M.A. Maqsood, A. Kiran (Eds.), Nitrogen Assessment, Academic Press, pp. 29-51.
  • Raza, S., Zhou, J., Aziz, T., Afzal, M.R., Ahmed, M., Javaid, S., Chen, Z., 2018. Piling up reactive nitrogen and declining nitrogen use efficiency in Pakistan: A challenge not challenged (1961-2013). Environmental Research Letters, 13(3): 034012.
  • Rijsdijk, F.H., 1986. Weeds, pests and diseases. In: H. Van Keulen and J. Wolf (Eds.), Modelling of Agricultural Production: Weather, Soils and Crops, Pudoc, pp. 277-305.
  • Roberts, T.L., 2008. Improving nutrient use efficiency. Turkish Journal of Agriculture and Forestry, 32(3): 177-182.
  • Robertson, G.P., 1997. Nitrogen use efficiency in row-crop agriculture: Crop nitrogen use and soil nitrogen loss. In: L.E. Jackson (Ed.), Ecology in Agriculture, Academic Press, pp. 347-365.
  • Rütting, T., Aronsson, H., Delin, S., 2018. Efficient use of nitrogen in agriculture. Nutrient Cycling in Agroecosystems, 110(1): 1-5.
  • Sanaullah, M., Mujtaba, A., Haider, G., ur Rehman, H., Mubeen, F., 2022. Mitigation and actions toward nitrogen losses in Pakistan. In: T. Aziz, A. Wakeel, M.A. Watto, M. Sanaullah, M.A. Maqsood, A. Kiran (Eds.), Nitrogen Assessment, Academic Press, pp. 149-175.
  • Shah, A.N., Iqbal, J., Tanveer, M., Yang, G., Hassan, W., Fahad, S., Yousaf, M., Wu, Y., 2017. Nitrogen fertilization and conservation tillage: A review on growth, yield, and greenhouse gas emissions in cotton. Environmental Science and Pollution Research, 24(3): 2261-2272.
  • Shahzad, A.N., Qureshi, M.K., Wakeel, A., Misselbrook, T., 2019. Crop production in Pakistan and low nitrogen use efficiencies. Nature Sustainability, 2(12): 1106-1114.
  • Shen, J., Li, Y., Wang, Y., Li, Y., Zhu, X., Jiang, Y., Wu, J., 2022. Soil nitrogen cycling and environmental impacts in the subtropical Hilly region of China: Evidence from measurements and modeling. Frontiers of Agricultural Sciences and Engineering, 9(3): 407-424.
  • Shumway, C., Delgado, J.A., Bunch, T., Hansen, L., Ribaudo, M., 2012. Best nitrogen management practices can reduce the potential flux of nitrogen out of the Arkansas Delta. Soil Science, 177(3): 198-209.
  • Stanford, G., Dzienia, S., Vander Pol, R.A., 1975. Effect of temperature on denitrification rate in soils. Soil Science Society of America Journal, 39(5): 867-870.
  • Tao, H., Morris, T.F., Kyveryga, P., McGuire, J., 2018. Factors affecting nitrogen availability and variability in cornfields. Agronomy Journal, 110(5): 1974-1986.
  • Thorburn, P.J., Biggs, J.S., Palmer, J., Meier, E.A., Verburg, K., Skocaj, D.M., 2017. Prioritizing crop management to increase nitrogen use efficiency in Australian sugarcane crops. Frontiers in Plant Science, 8: 1504.
  • Tsujimoto, Y., Rakotoson, T., Tanaka, A., Saito, K., 2019. Challenges and opportunities for improving N use efficiency for rice production in sub-Saharan Africa. Plant Production Science, 22(4): 413-427.
  • Wakeel, A., Kiran, A., Shahid, M.R., Bano, Z., Zia, M.H., 2022. Trends in nitrogen use and development in Pakistan. In: T. Aziz, A. Wakeel, M.A. Watto, M. Sanaullah, M.A. Maqsood, A. Kiran (Eds.), Nitrogen Assessment, Academic Press, pp. 73-97.
  • Walsh, O.S., Belmont, K.M., 2015. Improving Nitrogen-Use Efficiency in Idaho Crop Production. University of Idaho Extension.
  • Williams, S.T., Vail, S., Arcand, M.M., 2021. Nitrogen use efficiency in parent vs. hybrid canola under varying nitrogen availabilities. Plants, 10(11): 2364.
  • Yi, Z., Wang, P., Tao, H., Zhang, H., Shen, L., 2008. Effects of types and application rates of nitrogen fertilizer on the development and nitrogen utilization of summer maize. Frontiers of Agriculture in China, 2(1): 44-49.
  • Zechmeister-Boltenstern, S., Sigmund, E., Kasper, M., Kitzler, B., Haas, E., Wandl, M., Strauss, P., Poetzelsberger, E., Dersch, G., Winiwarter, W., 2015. Effects of crop management, soil type, and climate on N2O emissions from Austrian Soils. EGU General Assembly Conference Abstracts, 15665.
  • Zeng, W., Xu, C., Huang, J., Wu, J., Ma, T., 2015. Emergence rate, yield, and nitrogen-use efficiency of sunflowers (Helianthus annuus) vary with soil salinity and amount of nitrogen applied. Communications in Soil Science and Plant Analysis, 46(8): 1006-1023.
  • Zhang, D., Li, W., Xin, C., Tang, W., Eneji, A.E., Dong, H., 2012. Lint yield and nitrogen use efficiency of field-grown cotton vary with soil salinity and nitrogen application rate. Field Crops Research, 138: 63-70.

Factors Affecting Nitrogen Use Efficiency (NUE): Meta Analysis

Yıl 2023, Cilt: 10 Sayı: 2, 231 - 242, 31.07.2023
https://doi.org/10.19159/tutad.1260531

Öz

Nitrogen (N) is an essential and limiting nutrient for crop production, as it is a structural part of plants and is involved in various processes. Worldwide, agricultural soils lack one or more essential nutrients, and nitrogen is one of them. Adding a sufficient amount of N will increase production. However, the overuse of N and loss of N from the soil-plant system is detrimental to the environment and results in economic losses. Nitrogen has reactive forms like ammonia, ammonium, nitrate, nitrite, nitric oxide, and nitrous oxide. Some reactive forms of N are harmful to humans, animals, plants, and microbial ecology. Nitrate can cause the eutrophication of surface water and contamination of groundwater. Drinking nitrate-contaminated water can cause methemoglobinemia and other health issues. Nitrous oxide emission depletes the ozone layer and contributes to climate change. Ammonia emissions contribute to acid rain and are also responsible for nitrous oxide emissions. This review addresses different factors/pathways/circumstances that contribute to the loss of N from the soil-plant system and reduce nitrogen use efficiency (NUE). Different factors influence NUE like ammonia volatilization, nitrification, denitrification, immobilization, leaching, runoff, temperature, soil pH, soil texture, rainfall and irrigation, soil salinity, tillage, weeds, pests, diseases, N loss from plants, fires, crop rotation, crop nutrition, crop varieties, and nitrogen management (right time, right source, right place, and right rate/amount).

Kaynakça

  • Abdullah Faraj, B., 2013. Evaluation of nitrogen use efficiency (NUE) in wheat. Master’s Thesis, University of Adelaide, Australia.
  • Agbeshie, A.A., Abugre, S., Atta-Darkwa, T., Awuah, R., 2022. A review of the effects of forest fire on soil properties. Journal of Forestry Research, 33: 1419-1441.
  • Akhtar, M., Hussain, F., Ashraf, M.Y., Qureshi, T.M., Akhter, J., Awan, A.R., 2012. Influence of salinity on nitrogen transformations in soil. Communications in Soil Science and Plant Analysis, 43(12): 1674-1683.
  • Altieri, M.A., Nicholls, C.I., Fritz, M.A., 2005. Manage Insects on Your Farm: A Guide to Ecological Strategies. Sustainable Agriculture Research and Education (SARE), USA.
  • Anonymous, 2002. Nitrification. United States Environmental Protection Agency, (https://www.epa. gov/sites/default/files/2015-09/documents/nitrificati on_1.pdf).
  • An, N., Wei, W., Qiao, L., Zhang, F., Christie, P., Jiang, R., Dobermann, A., Goulding, K.W.T., Fan, J., Fan, M., 2018. Agronomic and environmental causes of yield and nitrogen use efficiency gaps in Chinese rice farming systems. European Journal of Agronomy, 93: 40-49.
  • Anas, M., Liao, F., Verma, K.K., Sarwar, M.A., Mahmood, A., Chen, Z.-L., Li, Q., Zeng, X.-P., Liu, Y., Li, Y.-R., 2020. Fate of nitrogen in agriculture and environment: Agronomic, eco-physiological and molecular approaches to improve nitrogen use efficiency. Biological Research, 53(1): 1-20.
  • Argyropoulou, K., Salahas, G., Papasavvas, A., Hela, D., 2015. Impact of nitrogen deficiency on biomass production, morphological and biochemical characteristics of sweet basil (Ocimum basilicum L.) plants, cultivated aeroponically. Journal of International Scientific Publications: Agriculture & Food, 3: 32-42.
  • Aulakh, M.S., Malhi, S.S., 2004. Fertilizer nitrogen use efficiency as influenced by interactions with other nutrients. In: A.R. Mosier, J.K. Syers and J.R. Freney (Eds.), Agriculture and the Nitrogen Cycle: Assessing the Impacts of Fertilizer use on Food Production and the Environment, Island Press Washington, DC, USA, Vol. 65, pp. 181-192.
  • Aulakh, M.S., Rennie, D.A., Paul, E.A., 1984. The influence of plant residues on denitrification rates in conventional and zero tilled soils. Soil Science Society of America Journal, 48(4): 790-794.
  • Azimi, S., Kaur, T., Gandhi, T.K., 2021. A deep learning approach to measure stress level in plants due to nitrogen deficiency. Measurement, 173: 108650.
  • Aziz, T., Wakeel, A., Shahzad, A.N., Rees, R., Sutton, M., 2022. Rethinking nitrogen use: Need to plan beyond present. In: T. Aziz, A. Wakeel, M.A. Watto, M. Sanaullah, M.A. Maqsood, A. Kiran (Eds.), Nitrogen Assessment Pakistan as a Case-Study, Academic Press, pp. 1-11.
  • Balasubramanian, V., Alves, B., Aulakh, M., Bekunda, M., Cai, Z., Drinkwater, L., Mugendi, D., Kessel, C., Oenema, O., 2004. Crop, environmental and management factors affecting nitrogen use efficiency. In: A.R. Mosier, J.K. Syers and J.R. Freney (Eds.), Agriculture and the Nitrogen Cycle: Assessing the Impacts of Fertilizer Use on Food Production and the Environment, Island Press, pp. 19-33.
  • Baligar, V.C., Fageria, N.K., He, Z.L., 2001. Nutrient use efficiency in plants. Communications in Soil Science and Plant Analysis, 32(7-8): 921-950.
  • Bell, M.J., 2014. A Review of Nitrogen Use Efficiency in Sugarcane. Sugar Research Australia Limited.
  • Benincasa, P., Guiducci, M., Tei, F., 2011. The nitrogen use efficiency: meaning and sources of variation-case studies on three vegetable crops in central Italy. HortTechnology, 21(3): 266-273.
  • Brauer, E.K., Shelp, B.J., 2010. Nitrogen use efficiency: Re-consideration of the bioengineering approach. Botany, 88(2): 103-109.
  • Brennan, J., Hackett, R., McCabe, T., Grant, J., Fortune, R.A., Forristal, P.D., 2014. The effect of tillage system and residue management on grain yield and nitrogen use efficiency in winter wheat in a cool Atlantic climate. European Journal of Agronomy, 54: 61-69.
  • Brust, G.E., 2019. Management Strategies for Organic Vegetable Fertility. Safety and Practice for Organic Food, Academic Press.
  • Cameron, K.C., Di, H.J., Moir, J.L., 2013. Nitrogen losses from the soil/plant system: A review. Annals of Applied Biology, 162(2): 145-173.
  • Certini, G., 2005. Effects of fire on properties of forest soils: A review. Oecologia, 143(1): 1-10.
  • Chen, W., Hou, Z., Wu, L., Liang, Y., Wei, C., 2010. Effects of salinity and nitrogen on cotton growth in arid environment. Plant and Soil, 326(1): 61-73.
  • Cui, Z., Wang, G., Yue, S., Wu, L., Zhang, W., Zhang, F., Chen, X., 2014. Closing the N-use efficiency gap to achieve food and environmental security. Environmental Science & Technology, 48(10): 5780-5787.
  • Davis, J., 2007. Nitrogen Efficiency and Management. United State Department of Agriculture (USDA) and National Resource Conservation Service (NRCS).
  • De Klein, C.A.M., Van Logtestijn, R.S.P., 1996. Denitrification in grassland soils in the Netherlands in relation to irrigation, N-application rate, soil water content and soil temperature. Soil Biology and Biochemistry, 28(2): 231-237.
  • De Laporte, A., Banger, K., Weersink, A., Wagner-Riddle, C., Grant, B., Smith, W., 2021. Economic and environmental consequences of nitrogen application rates, timing and methods on corn in Ontario. Agricultural Systems, 188: 103018.
  • De Ruijter, F.J., Huijsmans, J.F.M., 2019. A methodology for estimating the ammonia emission from crop residues at a national scale. Atmospheric Environment: X, 2: 100028.
  • DeBano, L.F., 1991. The Effect of Fire on Soil Properties [General Technical Report (GTR)]. Rocky Mountain Research Station, USA.
  • Demir, Z., Keçeci, M., Tunç, A.E., 2021. Effects of nitrogen fertigation on yield, quality components, water use efficiency and nitrogen use efficiency of silage maize (Zea mays L.) as the second crop. Journal of Plant Nutrition, 44(3): 373-394.
  • Duan, Y., Shi, X., Li, S., Sun, X., He, X., 2014. Nitrogen use efficiency as affected by phosphorus and potassium in long-term rice and wheat experiments. Journal of Integrative Agriculture, 13(3): 588-596.
  • Eickhout, B., Bouwman, A.F., van Zeijts, H., 2006. The role of nitrogen in world food production and environmental sustainability. Agriculture, Ecosystems & Environment, 116(1): 4-14.
  • Fageria, N.K., 2014. Nitrogen Management in Crop Production. CRC Press (Taylor & Francis Group).
  • Fageria, N.K., Baligar, V.C., 2005. Enhancing Nitrogen Use Efficiency in Crop Plants. Elsevier.
  • Fagi, A.M., De Datta, S.K., 1981. Environmental factors affecting nitrogen efficiency in flooded tropical rice. Fertilizer Research, 2(1): 53-67.
  • Flis, S., 2017. The 4Rs in crop nitrogen research. Crops and Soils Magazine, 50(2): 18-20.
  • Fonseca, F., De Figueiredo, T., Nogueira, C., Queirós, A., 2017. Effect of prescribed fire on soil properties and soil erosion in a Mediterranean mountain area. Geoderma, 307: 172-180.
  • Gao, Q., Li, C., Feng, G., Wang, J., Cui, Z., Chen, X., Zhang, F., 2012. Understanding yield response to nitrogen to achieve high yield and high nitrogen use efficiency in rainfed corn. Agronomy Journal, 104(1): 165-168.
  • Gholamshahi, M., Ghanbari, A., Saffari, M., Izadi Darbandi, E., Samaie, M., 2016. Effect of nitrogen fertilizer on weeds growth and emergence and yield and yield components of corn (Zea mays L.). Journal of Iranian Plant Protection Research, 30(3): 416-425.
  • Giri, A., Heckathorn, S., Mishra, S., Krause, C., 2017. Heat stress decreases levels of nutrient-uptake and -assimilation proteins in tomato roots. Plants, 6(1): 6.
  • Han, J., Shi, J., Zeng, L., Xu, J., Wu, L., 2015b. Effects of nitrogen fertilization on the acidity and salinity of greenhouse soils. Environmental Science and Pollution Research, 22(4): 2976-2986.
  • Han, M., Okamoto, M., Beatty, P.H., Rothstein, S.J., Good, A.G., 2015a. The genetics of nitrogen use efficiency in crop plants. Annual Review of Genetics, 49: 269-289.
  • Hilton, B.R., Fixen, P.E., Woodard, H.J., 1994. Effects of tillage, nitrogen placement, and wheel compaction on denitrification rates in the corn cycle of a corn‐oats rotation. Journal of Plant Nutrition, 17(8): 1341-1357.
  • Hirel, B., Le Gouis, J., Ney, B., Gallais, A., 2007. The challenge of improving nitrogen use efficiency in crop plants: Towards a more central role for genetic variability and quantitative genetics within integrated approaches. Journal of Experimental Botany, 58(9): 2369-2387.
  • Hirel, B., Tétu, T., Lea, P.J., Dubois, F., 2011. Improving nitrogen use efficiency in crops for sustainable agriculture. Sustainability, 3(9): 1452-1485.
  • Hu, A., Tang, T., Liu, Q., 2018. Nitrogen use efficiency in different rice-based rotations in southern China. Nutrient Cycling in Agroecosystems, 112(1): 75-86.
  • Huang, S., Zhao, C., Zhang, Y., Wang, C., 2017. Nitrogen use efficiency in rice. In: Amanullah and S. Fahad (Eds.), Nitrogen in Agriculture, IntechOpen, pp. 187-208.
  • Ihara, H., Kato, N., Takahashi, S., Nagaoka, K., 2014. Effect of soil solarization on subsequent nitrification activity at elevated temperatures. Soil Science and Plant Nutrition, 60(6): 824-831.
  • Jan, T., Jan, M.T., Arif, M., Akbar, H., Ali, S., 2007. Response of wheat to source, type and time of nitrogen application. Sarhad Journal of Agriculture, 23(4): 871-880.
  • Jones, C., Brown, B.D., Engel, R., Horneck, D., Olson-Rutz, K., 2013. Factors Affecting Nitrogen Fertilizer Volatilization. Montana State University Extension.
  • Knobeloch, L., Salna, B., Hogan, A., Postle, J., Anderson, H., 2000. Blue babies and nitrate-contaminated well water. Environmental Health Perspectives, 108(7): 675-678.
  • Koffi, D., Vincent, B.B., Valere, M.C., 2016. Effect of nitrogen fertilizer on yield and nitrogen use efficiency of four aromatic rice varieties. Emirates Journal of Food and Agriculture, 28(2): 126-135.
  • Kubota, H., Iqbal, M., Quideau, S., Dyck, M., Spaner, D., 2018. Agronomic and physiological aspects of nitrogen use efficiency in conventional and organic cereal-based production systems. Renewable Agriculture and Food Systems, 33(5): 443-466.
  • Lea-Cox, J.D., Syvertsen, J.P., 1993. Salinity reduces water use and nitrate-n-use efficiency of citrus. Annals of Botany, 72(1): 47-54.
  • Lü, H., Liang, W., Wang, G., Connor, D.J., Rimmington, G.M., 2009. A simulation model assisted study on water and nitrogen dynamics and their effects on crop performance in the wheat-maize system: (II) model calibration, evaluation and simulated experimentation. Frontiers of Agriculture in China, 3(2): 109-121.
  • Ma, T., Chen, K., He, P., Dai, Y., Yin, Y., Peng, S., Ding, J., Yu, S., Huang, J., 2022. Sunflower photosynthetic characteristics, nitrogen uptake, and nitrogen use efficiency under different soil salinity and nitrogen applications. Water, 14(6): 982.
  • Mahler, R.L., Tayor, R., Porter, E., 1990. Nitrate and Groundwater. University of Idaho, Cooperative Extension System, Agricultural Experiment Station, College of Agriculture.
  • Meng, X., Zhu, Y., Yin, M., Liu, D., 2021. The impact of land use and rainfall patterns on the soil loss of the hillslope. Scientific Reports, 11(1): 16341.
  • Min, W., Hou, Z., Ma, L., Zhang, W., Ru, S., Ye, J., 2014. Effects of water salinity and N application rate on water- and N-use efficiency of cotton under drip irrigation. Journal of Arid Land, 6(4): 454-467.
  • Misselbrook, T., Bai, Z., Cai, Z., Cao, W., Carswell, A., Cowans, N., Cui, Z., Chadwick, D., Emmett, B., Goulding, K., Jiang, R., Jones, D., Ju, X., Liu, H., Lu, Y., Ma, L., Powlson, D., M. Rees, R., Skiba, U., Smith, P., Sylvester-Bradley, R., Williams, J., E., Wu, L., Xu, M., Xu, W., Zhang, F., Zhang, J., Zhou, K., Liu, X., 2022. Progress on improving agricultural nitrogen use efficiency: UK-China virtual joint centers on nitrogen agronomy. Frontiers of Agricultural Science and Engineering, 9(3): 475-489.
  • Murtaza, G., Azooz, M.M., Murtaza, B., Usman, Y., Saqib, M., 2013. Nitrogen-use-efficiency (NUE) in plants under NaCl stress. In: P. Ahmad, M.M. Azooz and M.N.V. Prasad (Eds.), Salt Stress in Plants: Signalling, Omics and Adaptations, Springer, New York, pp. 415-437.
  • Nandy (Datta), P., Das, S., Ghose, M., Spooner-Hart, R., 2007. Effects of salinity on photosynthesis, leaf anatomy, ion accumulation and photosynthetic nitrogen use efficiency in five Indian mangroves. Wetlands Ecology and Management, 15(4): 347-357.
  • Osman, A., 2008. Effects of fires on the soil physical and chemical properties and the soil seed bank in albaja area at white nile state, Sudan. Master’s Thesis, University of Khartoum, Sudan.
  • Pan, X., Baquy, M.A.-A., Guan, P., Yan, J., Wang, R., Xu, R., Xie, L., 2020. Effect of soil acidification on the growth and nitrogen use efficiency of maize in Ultisols. Journal of Soils and Sediments, 20(3): 1435-1445.
  • Pearson, J., Clough, E.C.M., Woodall, J., Havill, D.C., Zhang, X.-H., 1998. Ammonia emissions to the atmosphere from leaves of wild plants and Hordeum vulgare treated with methionine sulphoximine. New Phytologist, 138(1): 37-48.
  • Poffenbarger, H., Coyne, M.S., Frye, W.W., 2018. Nitrogen in soils/cycle. Reference Module in Earth Systems and Environmental Sciences, Elsevier.
  • Raun, W.R., Johnson, G.V., 1999. Improving nitrogen use efficiency for cereal production. Agronomy Journal, 91(3): 357-363.
  • Raun, W.R., Schepers, J.S., 2008. Nitrogen management for improved use efficiency. In: J.S. Schepers and W.R. Raun (Eds.), Nitrogen in Agricultural Systems, John Wiley & Sons, Ltd., pp. 675-693.
  • Rawal, N., Pande, K.R., Shrestha, R., Vista, S.P., 2022. Nutrient use efficiency (NUE) of wheat (Triticum aestivum L.) as affected by NPK fertilization. Plos One, 17(1): e0262771.
  • Raza, S., Watto, M.A., Irshad, A., Nasim, M., Zhao, X., 2022. Nitrogen sinks in the agro-food system of Pakistan. In: T. Aziz, A. Wakeel, M.A. Watto, M. Sanaullah, M.A. Maqsood, A. Kiran (Eds.), Nitrogen Assessment, Academic Press, pp. 29-51.
  • Raza, S., Zhou, J., Aziz, T., Afzal, M.R., Ahmed, M., Javaid, S., Chen, Z., 2018. Piling up reactive nitrogen and declining nitrogen use efficiency in Pakistan: A challenge not challenged (1961-2013). Environmental Research Letters, 13(3): 034012.
  • Rijsdijk, F.H., 1986. Weeds, pests and diseases. In: H. Van Keulen and J. Wolf (Eds.), Modelling of Agricultural Production: Weather, Soils and Crops, Pudoc, pp. 277-305.
  • Roberts, T.L., 2008. Improving nutrient use efficiency. Turkish Journal of Agriculture and Forestry, 32(3): 177-182.
  • Robertson, G.P., 1997. Nitrogen use efficiency in row-crop agriculture: Crop nitrogen use and soil nitrogen loss. In: L.E. Jackson (Ed.), Ecology in Agriculture, Academic Press, pp. 347-365.
  • Rütting, T., Aronsson, H., Delin, S., 2018. Efficient use of nitrogen in agriculture. Nutrient Cycling in Agroecosystems, 110(1): 1-5.
  • Sanaullah, M., Mujtaba, A., Haider, G., ur Rehman, H., Mubeen, F., 2022. Mitigation and actions toward nitrogen losses in Pakistan. In: T. Aziz, A. Wakeel, M.A. Watto, M. Sanaullah, M.A. Maqsood, A. Kiran (Eds.), Nitrogen Assessment, Academic Press, pp. 149-175.
  • Shah, A.N., Iqbal, J., Tanveer, M., Yang, G., Hassan, W., Fahad, S., Yousaf, M., Wu, Y., 2017. Nitrogen fertilization and conservation tillage: A review on growth, yield, and greenhouse gas emissions in cotton. Environmental Science and Pollution Research, 24(3): 2261-2272.
  • Shahzad, A.N., Qureshi, M.K., Wakeel, A., Misselbrook, T., 2019. Crop production in Pakistan and low nitrogen use efficiencies. Nature Sustainability, 2(12): 1106-1114.
  • Shen, J., Li, Y., Wang, Y., Li, Y., Zhu, X., Jiang, Y., Wu, J., 2022. Soil nitrogen cycling and environmental impacts in the subtropical Hilly region of China: Evidence from measurements and modeling. Frontiers of Agricultural Sciences and Engineering, 9(3): 407-424.
  • Shumway, C., Delgado, J.A., Bunch, T., Hansen, L., Ribaudo, M., 2012. Best nitrogen management practices can reduce the potential flux of nitrogen out of the Arkansas Delta. Soil Science, 177(3): 198-209.
  • Stanford, G., Dzienia, S., Vander Pol, R.A., 1975. Effect of temperature on denitrification rate in soils. Soil Science Society of America Journal, 39(5): 867-870.
  • Tao, H., Morris, T.F., Kyveryga, P., McGuire, J., 2018. Factors affecting nitrogen availability and variability in cornfields. Agronomy Journal, 110(5): 1974-1986.
  • Thorburn, P.J., Biggs, J.S., Palmer, J., Meier, E.A., Verburg, K., Skocaj, D.M., 2017. Prioritizing crop management to increase nitrogen use efficiency in Australian sugarcane crops. Frontiers in Plant Science, 8: 1504.
  • Tsujimoto, Y., Rakotoson, T., Tanaka, A., Saito, K., 2019. Challenges and opportunities for improving N use efficiency for rice production in sub-Saharan Africa. Plant Production Science, 22(4): 413-427.
  • Wakeel, A., Kiran, A., Shahid, M.R., Bano, Z., Zia, M.H., 2022. Trends in nitrogen use and development in Pakistan. In: T. Aziz, A. Wakeel, M.A. Watto, M. Sanaullah, M.A. Maqsood, A. Kiran (Eds.), Nitrogen Assessment, Academic Press, pp. 73-97.
  • Walsh, O.S., Belmont, K.M., 2015. Improving Nitrogen-Use Efficiency in Idaho Crop Production. University of Idaho Extension.
  • Williams, S.T., Vail, S., Arcand, M.M., 2021. Nitrogen use efficiency in parent vs. hybrid canola under varying nitrogen availabilities. Plants, 10(11): 2364.
  • Yi, Z., Wang, P., Tao, H., Zhang, H., Shen, L., 2008. Effects of types and application rates of nitrogen fertilizer on the development and nitrogen utilization of summer maize. Frontiers of Agriculture in China, 2(1): 44-49.
  • Zechmeister-Boltenstern, S., Sigmund, E., Kasper, M., Kitzler, B., Haas, E., Wandl, M., Strauss, P., Poetzelsberger, E., Dersch, G., Winiwarter, W., 2015. Effects of crop management, soil type, and climate on N2O emissions from Austrian Soils. EGU General Assembly Conference Abstracts, 15665.
  • Zeng, W., Xu, C., Huang, J., Wu, J., Ma, T., 2015. Emergence rate, yield, and nitrogen-use efficiency of sunflowers (Helianthus annuus) vary with soil salinity and amount of nitrogen applied. Communications in Soil Science and Plant Analysis, 46(8): 1006-1023.
  • Zhang, D., Li, W., Xin, C., Tang, W., Eneji, A.E., Dong, H., 2012. Lint yield and nitrogen use efficiency of field-grown cotton vary with soil salinity and nitrogen application rate. Field Crops Research, 138: 63-70.
Toplam 90 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Bitki Besleme ve Toprak Verimliliği
Bölüm Derleme / Review
Yazarlar

Muhammad Nauman Hanif 0000-0003-3893-3773

Yayımlanma Tarihi 31 Temmuz 2023
Yayımlandığı Sayı Yıl 2023 Cilt: 10 Sayı: 2

Kaynak Göster

APA Hanif, M. N. (2023). Factors Affecting Nitrogen Use Efficiency (NUE): Meta Analysis. Türkiye Tarımsal Araştırmalar Dergisi, 10(2), 231-242. https://doi.org/10.19159/tutad.1260531
AMA Hanif MN. Factors Affecting Nitrogen Use Efficiency (NUE): Meta Analysis. TÜTAD. Temmuz 2023;10(2):231-242. doi:10.19159/tutad.1260531
Chicago Hanif, Muhammad Nauman. “Factors Affecting Nitrogen Use Efficiency (NUE): Meta Analysis”. Türkiye Tarımsal Araştırmalar Dergisi 10, sy. 2 (Temmuz 2023): 231-42. https://doi.org/10.19159/tutad.1260531.
EndNote Hanif MN (01 Temmuz 2023) Factors Affecting Nitrogen Use Efficiency (NUE): Meta Analysis. Türkiye Tarımsal Araştırmalar Dergisi 10 2 231–242.
IEEE M. N. Hanif, “Factors Affecting Nitrogen Use Efficiency (NUE): Meta Analysis”, TÜTAD, c. 10, sy. 2, ss. 231–242, 2023, doi: 10.19159/tutad.1260531.
ISNAD Hanif, Muhammad Nauman. “Factors Affecting Nitrogen Use Efficiency (NUE): Meta Analysis”. Türkiye Tarımsal Araştırmalar Dergisi 10/2 (Temmuz 2023), 231-242. https://doi.org/10.19159/tutad.1260531.
JAMA Hanif MN. Factors Affecting Nitrogen Use Efficiency (NUE): Meta Analysis. TÜTAD. 2023;10:231–242.
MLA Hanif, Muhammad Nauman. “Factors Affecting Nitrogen Use Efficiency (NUE): Meta Analysis”. Türkiye Tarımsal Araştırmalar Dergisi, c. 10, sy. 2, 2023, ss. 231-42, doi:10.19159/tutad.1260531.
Vancouver Hanif MN. Factors Affecting Nitrogen Use Efficiency (NUE): Meta Analysis. TÜTAD. 2023;10(2):231-42.

TARANILAN DİZİNLER

14658    14659     14660   14661  14662  14663  14664        

14665      14667