Nitrogen source and fate of typical orchard with gentle slope in semi-arid areas
Abstract
Keywords: gentle slope orchard, N accumulation-migration, N fate, N source, semi-arid area
DOI: 10.25165/j.ijabe.20231606.7701
Citation: An M Y, Xie Y, Han Y G, Zhou J X, Guo H L, Qu Z X. Nitrogen source and fate of typical orchard with gentle slope in semi-arid areas. Int J Agric & Biol Eng, 2023; 16(6): 167–175.
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Ti C P, Pan J J, Xia Y Q, Yan X Y. A nitrogen budget of mainland China with spatial and temporal variation. Biogeochemistry, 2012; 108: 381–394.
He W T, Jiang R, He P, Yang J Y, Zhou W, Ma J C, et al. Estimating soil nitrogen balance at regional scale in China’s croplands from 1984 to 2014. Agricultural Systems, 2018; 167: 125–135.
Swaney D P, Hong B, Selvam A P, Howarth R W, Ramesh R, Purvaja R. Net anthropogenic nitrogen inputs and nitrogen fluxes from Indian watersheds, An initial assessment. Journal of Marine Systems, 2015; 141: 45–58.
An M Y, Han Y G, Zhao C Y, Qu Z X, Xu P, Wang X R, et al. Effects of different wind directions on soil erosion and nitrogen loss processes under simulated wind-driven rain. Catena, 2022; 217: 106423.
Valkama E, Salo T, Esala M, Turtola E. Nitrogen balances and yields of spring cereals as affected by nitrogen fertilization in northern conditions, a meta-analysis. Agriculture Ecosystems & Environment, 2013; 164: 1–13.
Kane E S, Betts E F, Burgin A J, Clilverd H M, Crenshaw C L, Fellman J B, et al. Precipitation control over inorganic nitrogen import-export budgets across watersheds, a synthesis of long-term ecological research. Ecohydrology, 2008; 1: 105–117.
Decock C, Six J. An assessment of N-cycling and sources of N2O during a simulated rain event using natural abundance 15N. Agriculture Ecosystems & Environment, 2013; 165: 141–150.
Han Y G, Feng G, Swaney D P, Dentener F, Koeble R, Ouyang Y, et al. Global and regional estimation of net anthropogenic nitrogen inputs (NANI). Geoderma, 2020; 361: 114066.
Gao M F, Qiu J J, Li C S, Wang L G, Li H, Gao C Y. Modeling nitrogen loading from a watershed consisting of cropland and livestock farms in China using Manure-DNDC. Agriculture Ecosystems & Environment, 2014; 185: 88–98.
Wang X B, Cai D X, Zhao Q S, Xie X H, Hoogmoed W B, Oenema O. Balanced N and C input recommendations for rain‐fed maize production in Northern China based on N balances and grain yields. Journal of the Science of Food and Agriculture, 2018; 98: 872–883.
Timsina J, Panaullah G M, Saleque M A, Ishaque M, Pathan A B M B U, Quayyum M A, et al. Nutrient uptake and apparent balances for rice-wheat sequences. I. Nitrogen. Journal of Plant Nutrition, 2006; 29: 137–155.
Hong X, Ma C, Gao J, Su S, Li T, Luo Z, et al. Effects of different green manure treatments on soil apparent N and P balance under a 34-year double-rice cropping system. Journal of Soils and Sediments, 2019; 19: 73–80.
Ju X T, Kou C L, Zhang F S, Christie P. Nitrogen balance and groundwater nitrate contamination, Comparison among three intensive cropping systems on the North China Plain. Environmental Pollution, 2006; 143: 117–125.
Rocha K F, de Souza M, Almeida D S, Chadwick D R, Jones D L, Mooney S J, et al. Cover crops affect the partial nitrogen balance in a maize-forage cropping system. Geoderma, 2020; 360: 114000.
Choi S T, Song W D, Park D S, Kang S M. Effect of different girdling dates on tree growth, fruit characteristics and reserve accumulation in a late-maturing persimmon. Scientia Horticulturae, 2010; 126: 152–155.
Lu J W, Cao W D. Fertilization techniques of fruit trees. Technical manual for fertilizer application. Beijing: Jindun Publishing Company, 2010; pp.549–550.
Zhang Y S, Zhang J B, Zhu T B, Müller C, Cai Z C. Effect of orchard age on soil nitrogen transformation in subtropical China and implications. Journal of Environmental Sciences, 2015; 34: 10–19.
Zhao Z, Zheng W, Ma Y, Wang X, Li Z, Zhai B, et al. Responses of soil water, nitrate and yield of apple orchard to integrated soil management in Loess Plateau, China. Agricultural Water Management, 2020; 240: 106325.
Liu X J, Xu W, Duan L, Du E Z, Pan Y P, Lu X K, et al. Atmospheric nitrogen emission, deposition, and air quality impacts in China: an overview. Current Pollution Reports, 2017; 3: 65–77.
Zhao Y, Zhang L, Chen Y, Liu X, Xu W, Pan Y, et al. Atmospheric nitrogen deposition to China, A model analysis on nitrogen budget and critical load exceedance. Atmospheric Environment, 2017; 153: 32–40.
Ma T Y, Liu X Y, Xu S Q, Guo H R, Huang H, Hu C C, et al. Levels and variations of soil organic carbon and total nitrogen among forests in a hotspot region of high nitrogen deposition. Science of the Total Environment, 2020; 713: 136620.
Pan Y P, Wang Y S, Tang G Q, Wu D. Wet and dry deposition of atmospheric nitrogen at ten sites in Northern China. Atmos. Chemical Physics, 2012; 12: 6515–6535.
Yu T, Zhuang Q L. Modeling biological nitrogen fixation in global natural terrestrial ecosystems. Biogeosciences, 2020; 17: 3643–3657.
Henke M, Sarlikioti V, Kurth W, Buck-Sorlin G H, Pagès L. Exploring root developmental plasticity to nitrogen with a three-dimensional architectural model. Plant and Soil, 2014; 385: 49–62.
Li D J, Zhang Q S, Xiao K C, Wang Z C, Wang K L. Divergent responses of biological nitrogen fixation in soil, litter and moss to temperature and moisture in a karst forest, southwest China. Soil Biology & Biochemistry, 2018; 118: 1–7.
Zheng M H, Chen H, Li D J, Zhu X M, Zhang W, Fu S L, et al. Biological nitrogen fixation and its response to nitrogen input in two mature tropical plantations with and without legume trees. Biology and Fertility of Soils, 2016; 52: 665–674.
Adams M A, Attiwill P M. Role of Acacia spp.in nutrient balance and cycling in regenerating Eucalyptus regnans F. Muell. forests. I. Temporal changes in biomass and nutrient content. Australian Journal of Botany, 1984; 32: 205–215.
Skujiņš J, Tann C C, Börjesson I. Dinitrogen fixation in a montane forest sere determined by 15N2 assimilation and in situ acetylene-reduction methods. Soil Biology & Biochemistry, 1987; 19: 465–471.
Fahey T J, Yavitt J B, Pearson J A, Knight D H. The nitrogen cycle in lodgepole pine forests, southeastern Wyoming. Biogeochemistry, 1985; 1: 257–275.
DuBois J D, Kapustka L A. Biological nitrogen influx in an Ohio relict prairie. American Journal of Botany, 1983; 70: 8–16.
Yang Y, Ni X Y, Liu B M, Tao L Z, Yu L X, Wang Q, et al. Measuring field ammonia emissions and canopy ammonia fluxes in agriculture using portable ammonia detector method. Journal of Cleaner Production, 2019; 216: 542–551.
Saggar S, Jha N, Deslipp J, Bolan N S, Luo J, Giltrap D L, et al. Denitrification and N2O, N2 production in temperate grasslands, processes, measurements, modelling and mitigating negative impacts. Science of the Total Environment, 2013; 465: 173–195.
IPCC. Climate change 2007, the physical science basis. In: Solomon S, Qin D, Manning M, Chen Z, Marquis M. Contribution of working group I to the fourth assessment report of the intergovernmental panel on climate change. Cambridge University Press, 2007, Cambridge/United Kingdom/New York, NY, USA, 996p.
Xie B, Yu J, Zheng X, Qu F, Xu Y, Lin H. N2O emissions from an apple orchard in the coastal area of Bohai Bay, China. The Scientific World Journal, 2014; 2014: 164732.
Pang J Z, Wang X K, Mu Y J, Ouyang Z Y, Liu W Z. Nitrous oxide emissions from an apple orchard soil in the semiarid Loess Plateau of China. Biology and Fertility of Soils, 2009; 46: 37–44.
Pang J Z, Wang X K, Peng C H, Mu Y J, Ouyang Z Y, Lu F, et al. Nitrous oxide emissions from soils under traditional cropland and apple orchard in the semi-arid Loess Plateau of China. Agriculture Ecosystems & Environment, 2019; 269: 116–124.
Lin S, Iqbal J, Hu R G, Feng M L. N2O emissions from different land uses in mid-subtropical China. Agriculture Ecosystems & Environment, 2010; 136: 40–48.
Lin S, Iqbal J, Hu R, Ruan L L, Wu J, Zhao J, Wang P J. Differences in nitrous oxide fluxes from red soil under different land uses in mid-subtropical China. Agriculture Ecosystems & Environment, 2012; 146(1): 168–178.
Oo A Z, Gonai T, Sudo S, Win K T, Shibata A. Surface application of fertilizers and residue biochar on N2O emission from Japanese pear orchard soil. Plant Soil and Environment, 2018; 64: 597–604.
Alsina M M, Fanton-Borges A C, Smart D R. Spatiotemporal variation of event related N2O and CH4 emissions during fertigation in a California almond orchard. Ecosphere, 2013; 4: 1–21.
Xing W, Yang P, Ren S, Ao C, Li X, Gao W. Slope length effects on processes of total nitrogen loss under simulated rainfall. Catena, 2016; 139: 73–81.
Zhao Z P, Yan S, Liu F, Wang X Y, Tong Y A. Analysis of nitrogen inputs and soil nitrogen loading in different kinds of orchards in Shaanxi Province. Acta Ecologica Sinica, 2014; 34(19): 5642–5649.
Yin Y, Ying H, Zheng H, Zhang Q, Xue Y, Cui Z. Estimation of N P K requirements for rice production in diverse Chinese environments under optimal fertilization rates. Agricultural and Forest Meteorology, 2019; 279: 107756.
Han Y, Li X, Nan Z. Net anthropogenic nitrogen accumulation in the Beijing metropolitan region. Environmental Science and Pollution Research Environmental Science and Pollution Research, 2011; 18: 485–496.
Yuan S, Peng S. Exploring the trends in nitrogen input and nitrogen use efficiency for agricultural sustainability. Sustainability, 2017; 9: 1905.
Guo S, Pan J, Zhai L, Khoshnevisan B, Wu S, Wang H, et al. The reactive nitrogen loss and GHG emissions from a maize system after a long-term livestock manure incorporation in the North China Plain. Science of the Total Environment, 2020; 137558.
Kumar S, Dey P. Effects of different mulches and irrigation methods on root growth, nutrient uptake, water-use efficiency and yield of strawberry. Scientia Horticulturae, 2011; 127: 318–324.
Sánchez E E. Nutrition and water management in intensive pear growing. Acta Horticulturae Sinica, 2014; 1094: 307–316.
Shen W, Ni Y, Gao N, Bian B, Zheng S, Lin X, et al. Bacterial community composition is shaped by soil secondary salinization and acidification brought on by high nitrogen fertilization rates. Applied Soil Ecology, 2016; 108: 76–83.
Norse D, Ju X. Environmental costs of China’s food security. Agriculture Ecosystems & Environment, 2015; 209: 5–14.
Zhao H, Li X, Jiang Y. Response of nitrogen losses to excessive nitrogen fertilizer application in intensive greenhouse vegetable production. Sustainability, 2019; 11: 1513.
Geng Y, Wang J, Sun Z, Ji C, Huang M, Zhang Y, et al. Soil N-oxide emissions decrease from intensive greenhouse vegetable fields by substituting synthetic N fertilizer with organic and bio-organic fertilizers. Geoderma, 2021; 83: 114730.
Domènech L. Improving irrigation access to combat food insecurity and undernutrition: A review. Global Food Security-Agriculture Policy Economics and Environment, 2015; 6: 24–33.
TerAvest D, Smith J L, Carpenter-Boggs L, Hoagland L, Granatstein D, Reganold J P. Influence of orchard floor management and compost application timing on nitrogen partitioning in apple trees. Hortscience, 2010; 45: 637–642.
Zambrano-Vaca C, Zotarelli L, Beeson Jr R C, Morgan K T, Migliaccio K W, Chaparro J X, et al. Determining water requirements for young peach trees in a humid subtropical climate. Agricultural Water Management, 2020; 233: 106102.
Zhang X, Mi F, Lu N, Yan N, Kuglerova L, Yuan S, et al. Green space water use and its impact on water resources in the capital region of China. Physics and Chemistry of the Earth, 2017; 101: 185–194.
Zhong R, Dong X, Ma Y. Sustainable water saving new concept of modern agricultural water saving, starting from development of Xinjiang’s agricultural irrigation over the last 50 years. Irrigation and Drainage, 2009; 58: 383–392.
Cremades R, Wang J, Morris J. Policies, economic incentives and the adoption of modern irrigation technology in China. Earth System Dynamics, 2015; 6: 399–410.
Holt N, Sishodia R P, Shukla S, Hansen K M. Improved water and economic sustainability with low-input compact bed plasticulture and precision irrigation. Journal of Irrigation and Drainage Engineering, 2019; 145: 04019013.
Tian D, Zhang Y, Mu Y, Zhou Y, Zhang C, Liu J. The effect of drip irrigation and drip fertigation on N2O and NO emissions, water saving and grain yields in a maize field in the North China Plain. Science of the Total Environment, 2017; 575: 1034–1040.
Martínez J, Reca J. Water use efficiency of surface drip irrigation versus an alternative subsurface drip irrigation method. Journal of Irrigation and Drainage Engineering, 2014; 140: 04014030.
Liao R, Wu W, Hu Y, Xu D, Huang Q, Wang S. Micro-irrigation strategies to improve water-use efficiency of cherry trees in Northern China. Agricultural Water Management, 2019; 221: 388–396.
Liu Y, Ma R, Li D, Qi C, Han L, Chen M, et al. Effects of calcium magnesium phosphate fertilizer, biochar and spent mushroom substrate on compost maturity and gaseous emissions during pig manure composting. Journal of Environmental Management, 2020; 267: 110649.
Huang J, Duan Y H, Xu M G, Zhai L M, Zhang X B, Wang B R, Zhang Y Z, Gao S D, Sun N. Nitrogen mobility, ammonia volatilization, and estimated leaching loss from long-term manure incorporation in red soil. Journal of Integrative Agriculture, 2017; 16: 2082–2092.
Zhang T, Liu H, Luo J, Wang H, Zhai L, Geng Y, et al. Long-term manure application increased greenhouse gas emissions but had no effect on ammonia volatilization in a Northern China upland field. Science of the Total Environment, 2018; 633: 230–239.
Peng S, Hou H, Xu J, Yang S, Mao Z. Lasting effects of controlled irrigation during rice-growing season on nitrous oxide emissions from winter wheat croplands in Southeast China. Paddy and Water Environment, 2013; 11: 583–591.
Qiao C, Liu L, Hu S, Compton J E, Greaver T L, Li Q. How inhibiting nitrification affects nitrogen cycle and reduces environmental impacts of anthropogenic nitrogen input. Global Change Biology, 2015; 21: 1249–1257.
Borchard N, Schirrmann M, Cayuela M L, Kammann C, Wrage-Mönnig N, Estavillo J M, et al. Biochar, soil and land-use interactions that reduce nitrate leaching and N2O emissions, a meta-analysis. Science of the Total Environment, 2019; 651: 2354–2364.
Duan P, Zhang Q, Zhang X, Xiong Z. Mechanisms of mitigating nitrous oxide emissions from vegetable soil varied with manure, biochar and nitrification inhibitors. Agricultural and Forest Meteorology, 2019; 278: 107672.
Wu L, Chang H, Ma X. A modified method for pesticide transport and fate in subsurface environment of a winter wheat field of Yangling, China. Science of the Total Environment, 2017; 609: 385–395.
National Bureau of Statistics of the People’s Republic of China (NBSPRC). China statistical yearbook, China Statistics Press, 2019; Beijing.
Li T, Zhao L, Duan H, Yang Y, Wang Y, Wu F. Exploring the interaction of surface roughness and slope gradient in controlling rates of soil loss from sloping farmland on the Loess Plateau of China. Hydrological Processes, 2020; 34: 339–354.
He J J, Cai Q G, Liu S B. Effects of slope gradient on slope runoff and sediment yield under different single rainfall conditions. Chinese Journal of Applied Ecology, 2012; 23: 1263–1268. (in Chinese)
Ding W F, Huang C H. Effect of soil surface roughness on inter rill erosion process and sediment particle size distribution. Geomorphology, 2017; 295: 801–810.
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