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施氮水平与模拟降雨pH值对玉米冠层NO_3^--N淋失的影响 被引量:2
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作者 王丽梅 李世清 邵明安 《农业工程学报》 EI CAS CSCD 北大核心 2011年第6期66-72,共7页
为探明降雨特别是酸雨对玉米冠层氮素淋失的影响,以盆栽试验春玉米为指示作物,采用自制人工降雨器进行模拟降雨,研究施氮与不施氮(对照)条件下玉米冠层NO3--N淋失动态、数量及随生育期和降雨酸度的变化规律。结果表明,中性和弱酸性降雨... 为探明降雨特别是酸雨对玉米冠层氮素淋失的影响,以盆栽试验春玉米为指示作物,采用自制人工降雨器进行模拟降雨,研究施氮与不施氮(对照)条件下玉米冠层NO3--N淋失动态、数量及随生育期和降雨酸度的变化规律。结果表明,中性和弱酸性降雨淋洗,NO3--N淋失量主要由冠层氮素含量决定,而强酸雨淋洗,NO3--N淋失量受降雨pH值和冠层氮素含量共同影响。各生育期玉米冠层NO3--N淋失量随降雨pH值降低变化规律不一,生育前期降雨pH值对冠层NO3--N淋失影响较生育后期显著,在研究降雨酸度对玉米冠层NO3--N淋失的影响时,必须考虑生育期。相同pH值模拟降雨条件下,玉米冠层NO3--N淋失量随生育期推进逐渐降低:11叶期>吐丝期>灌浆期,生育前期显著高于中后期。玉米冠层NO3--N淋失量不仅与介质施氮有关,同时受降雨pH值影响,2因素在不同生育期对NO3--N淋失贡献大小有所不同,但总体看,植物体氮素丰富程度是影响冠层NO3--N淋失的主要因素。各生育期玉米冠层均存在一定数量的NO3--N淋失,尤以生育前期为甚,说明在研究农田生态系统氮素流量和冠层氮素损失时,冠层氮素淋失应予以考虑。 展开更多
关键词 降雨 pH 玉米 冠层no3--n淋失
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季节性干湿气候对茶园坡面土壤硝态氮淋失的影响 被引量:2
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作者 柳菲 赖晓明 +1 位作者 朱青 廖凯华 《农业现代化研究》 CSCD 北大核心 2021年第2期223-231,共9页
气候变化背景下,季节性干湿对土壤NO_(3)^(-)-N淋失产生重大影响。本文以太湖流域典型茶园为研究对象,基于1960—2019年降雨数据,提取每个季节十年一遇干旱、十年一遇湿润和最接近平均降雨量的气象数据,组合成31种降雨情景,并采用DNDC... 气候变化背景下,季节性干湿对土壤NO_(3)^(-)-N淋失产生重大影响。本文以太湖流域典型茶园为研究对象,基于1960—2019年降雨数据,提取每个季节十年一遇干旱、十年一遇湿润和最接近平均降雨量的气象数据,组合成31种降雨情景,并采用DNDC模型模拟不同情景下NO_(3)^(-)-N淋失通量,探讨季节性干湿气候对土壤NO_(3)^(-)-N淋失的影响。结果表明:湿润季节越多,NO_(3)^(-)-N的淋失通量越大,反之则越小;NO_(3)^(-)-N淋失容易发生在降雨集中的季节、施肥之后的雨期或干旱之后的雨期。春季和秋季干旱会导致NO_(3)^(-)-N淋失通量大幅减小,减幅分别为83.9%和63.4%;秋季或冬季干旱时,如果后续季节遇到降雨,NO_(3)^(-)-N淋失通量均有明显增加。春季湿润导致NO_(3)^(-)-N淋失通量大幅增加,增幅为50.5%左右;而秋季湿润对NO_(3)^(-)-N淋失通量无明显影响。季节性干旱情景下,NO_(3)^(-)-N淋失存在滞后效应,对后续季节NO_(3)^(-)-N的淋失影响显著,到来年夏季结束;季节性湿润情景下,NO_(3)^(-)-N淋失存在提前效应,但对后续季节NO_(3)^(-)-N淋失影响较小,到来年秋季结束。本研究有助于气候变化背景下面源氮素损失的风险评估和精准农业管理。 展开更多
关键词 季节性干旱 季节性湿润 no3--n淋失 DNDC模型 太湖流域
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Nitrate-Nitrogen Dynamics and Nitrogen Budgets in Rice-Wheat Rotations in Taihu Lake Region, China 被引量:3
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作者 ZHANG Jun-Hua LIU Jian-Li +2 位作者 ZHANG Jia-Bao CHENG Ya-Nan WANG Wei-Peng 《Pedosphere》 SCIE CAS CSCD 2013年第1期59-69,共11页
Nitrate-nitrogen (NO3-N) dynamics and nitrogen (N) budgets in rice (0ryza sativa L.)-wheat (Triticum aestivum L.) rotations in the Taihu Lake region of China were studied to compare the effects of N fertilizer... Nitrate-nitrogen (NO3-N) dynamics and nitrogen (N) budgets in rice (0ryza sativa L.)-wheat (Triticum aestivum L.) rotations in the Taihu Lake region of China were studied to compare the effects of N fertilizer management over a two-year period. The experiment included four N rates for rice and wheat, respectively: N1 (125 and 94 kg N ha-1), N2 (225 and 169 kg N ha-1), N3 (325 and 244 kg N ha-1), and NO (0 kg N ha-1). The results showed that an overlying water layer during the rice growing seasons contributed to moderate concentrations of NO3-N in sampled waters and the concentrations of NO3-N only showed a rising trend during the field drying stage. The NO3-N concentrations in leachates during the wheat seasons were much higher than those during the rice seasons, particularly in the wheat seedling stage. In the wheat seedling stage, the NO3-N concentrations of leachates were significantly higher in N treatments than in NO treatment and increased with increasing N rates. As the NO3-N content (below 2 mg N L-1) at a depth of 80 cm during the rice-wheat rotations did not respond to the applied N rates, the high levels of NO3-N in the groundwater of paddy fields might not be directly related to NO3-N leaching. Crop growth trends were closely related to variations of NO3-N in leachates. A reduction in N application rate, especially in the earlier stages of crop growth, and synchronization of the peak of N uptake by the crop with N fertilizer application are key measures to reduce N loss. Above-ground biomass for rice and wheat increased significantly with increasing N rate, but there was no significant difference between N2 and N3. Increasing N rates to the levels greater than N2 not only decreased N use efficiency, but Mso significantly increased N loss. After two cycles of rice-wheat rotations, the apparent N losses of N1, N2 and N3 amounted to 234, 366 and 579 kg N ha-1, respectively. With an increase of N rate from NO to N3, the percentage of N uptake in total N inputs decreased from 63.9% to 46.9%. The apparent N losses during the rice seasons were higher than those during the wheat seasons and were related to precipitation; therefore, the application of fertilizer should take into account climate conditions and avoid application before heavy rainfall. 展开更多
关键词 above-ground biomass crop uptake nitrate-nitrogen leaching nitrogen mineralization nitrogen transport
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