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(2)Zhang WS, Li HP, David H, et al., 2020. Water quality trends under rapid agricultural expansion and enhanced in-stream interception in a hilly watershed of Eastern China. Environmental Research Letters. https://doi.org/10.1088/1748-9326/ab8981
(3)Zhang WS, Li HP, Pueppke SG, et al., 2020. Nutrient loss is sensitive to land cover changes and slope gradients of agricultural hillsides: Evidence from four contrasting pond systems in a hilly catchment. Agricultural Water Management 237: 106165
(4)Zhang WS, Li HP, Xiao QT, et al., 2020. Surface nitrous oxide (N2O) concentrations and fluxes from different rivers draining contrasting landscapes: Spatio-temporal variability, controls, and implications based on IPCC emission factor. Environmental Pollution 263: 114457
(5)Zhang WS, Pueppke SG, Li HP, et al., 2019. Modeling phosphorus sources and transport in a headwater catchment with rapid agricultural expansion. Environmental Pollution 255: 113273
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(7)Zhang WS, Li HP, Li YL, 2019. Spatio-temporal dynamics of nitrogen and phosphorus input budgets in a global hotspot of anthropogenic inputs. Science of the Total Environment 656: 1108:1120
(8)Zhang WS, Chen DQ, Li HP, 2018. Spatio-temporal dynamics of water quality and their linkages with the watershed landscape in highly disturbed headwater watersheds in China. Environmental Science and Pollution Research 25: 35287-35300
(9)Zhang WS, Swaney DP, Hong B, et al., 2017. Anthropogenic phosphorus inputs to a river basin and their impacts on phosphorus fluxes along its upstream-downstream continuum. Journal of Geophysical Research: Biogeosciences 122: 3273-3287
(10)Zhang WS, Swaney DP, Hong B, et al., 2017. Influence of rapid rural-urban population migration on riverine nitrogen pollution: perspective from ammonia-nitrogen. Environmental Science and Pollution Research, 24: 27201-27214
(11)Zhang WS, Li XY, Swaney DP, et al., 2016. Does food demand and rapid urbanization growth accelerate regional nitrogen inputs? Journal of Cleaner Production, 112: 1401-1409
(12)Zhang WS, Swaney DP, Hong B, et al., 2015. Net anthropogenic phosphorus inputs and riverine phosphorus fluxes in highly populated headwater watersheds in China. Biogeochemistry, 126(3): 269-283
(13)Zhang WS, Swaney DP, Li XY, et al., 2015. Anthropogenic point-source and non-point-source nitrogen inputs into Huai River basin and their impacts on riverine ammonia–nitrogen flux. Biogeosciences, 12(14): 4275-4289
(14)張汪壽, 李敘勇, 杜新忠等. 流域人類(lèi)活動(dòng)凈氮輸入量(NANI)的估算、不確定性及影響因素. 生態(tài)學(xué)報,2015, 34(24):7454-7464
(15)張汪壽, 蘇靜君, 杜新忠等. 1990—2010年淮河流域人類(lèi)活動(dòng)凈氮輸入. 應用生態(tài)學(xué)報, 2015, 26(6): 1831-1839
(16)張汪壽, 李敘勇, 蘇靜君. 河流氮輸出對流域人類(lèi)活動(dòng)凈氮輸入的響應研究綜述. 應用生態(tài)學(xué)報, 2014, 25(1):272-278
(17)張汪壽, 耿潤哲, 王曉燕等. 基于多準則分析的非點(diǎn)源污染評價(jià)和分區——以北京懷柔區北宅小流域為例. 環(huán)境科學(xué)學(xué)報, 2013, 33(1):258-266
(18)張汪壽, 李曉秀, 王曉燕等. 北運河武清段水污染時(shí)空變異特征. 環(huán)境科學(xué)學(xué)報, 2012, 32(4):836-846
(19)張汪壽, 李曉秀, 王曉燕等. 北運河下游灌區不同土地利用方式下氮素流失規律. 環(huán)境科學(xué)學(xué)報, 2011, 31(12):2698-2706
(20)張汪壽, 黃文江, 李曉秀等. 不同土地利用條件下土壤質(zhì)量綜合評價(jià)方法. 農業(yè)工程學(xué)報, 2010, 26(12):311-318
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