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首页|期刊导航|植物营养与肥料学报|不同用量生物质炭降低华南集约化菜地土壤N2O排放和提高氮肥利用率的效应

不同用量生物质炭降低华南集约化菜地土壤N2O排放和提高氮肥利用率的效应OA北大核心CSTPCD

Effects of different amounts of biochar on reducing soil N2O emission and increasing nitrogen use efficiency under intensive vegetable production in South China

中文摘要英文摘要

[目的]我国集约化蔬菜种植氮肥施用量大、复种指数高、农事操作频繁,导致土壤氮素损失量大,氮肥利用率低.生物质炭施用可有效改善土壤物理、化学和生物学性质,进而影响土壤氮素循环以及作物产量.比较不同生物质炭用量对土壤N2O减排和作物产量的影响及作用机理,为生物质炭在蔬菜栽培中的应用提供指导.[方法]田间试验在华南地区进行,在连续两年内共种植 4 茬多次收获蔬菜.试验设置不施氮肥(CK)、常规施氮(NF)、常规施氮+20 t/hm2 生物质炭(NB20)和常规施氮+40 t/hm2 生物质炭(NB40)处理,采用静态暗箱—气相色谱法对两年蔬菜生长季的土壤N2O排放量和蔬菜产量进行测定,田间试验结束后采集土样测定土壤理化性质和酶活性.[结果]生物炭施用两年后,NB20 和NB40 处理的土壤全氮、pH、有效磷和脲酶活性均显著高于NF,NB20 处理的pH和有效磷含量又显著高于NB40 处理.两年试验NF处理菜地土壤N2O排放通量范围为42.8~7233.0 μg/(m2·h),生物质炭处理为28.4~3188.1 μg/(m2·h),温度、季节和氮肥施用是引起波动的主要因素.与NF处理相比,2018、2019 年NB20 处理的N2O累积排放量分别显著降低了 64.3%、66.9%,NB40 处理分别显著降低了 55.8%、62.5%,但两处理之间无显著差异.与NF处理相比,NB20 处理的蔬菜产量显著增加了 10.1%~29.10%,产量尺度N2O排放显著降低了 56.4%~74.4%,氮素吸收量因而显著增加了13.9%~32.9%,两年之间多数指标变化不显著;NB40 处理第一年的增产、降排效果与NB20 处理无显著差异,第二年的产量和氮素利用率显著低于NB20 处理,也低于第一年.相关性分析和冗余分析表明,土壤pH是影响N2O排放的主要因素,土壤有效磷、pH和有机碳是影响蔬菜产量的主要因素.[结论]在华南集约化蔬菜生产中,配施生物质炭能显著缓解大量氮肥施用产生的土壤酸化,增加土壤蛋白酶和脲酶活性,进而抑制施肥诱发的土壤N2O排放,提高蔬菜的氮吸收量,最终增加蔬菜产量和氮素利用率.与施用 40 t/hm2 的处理相比,施用 20 t/hm2 生物炭的处理提升土壤pH和产量的效果更稳定,降低单位产量N2O排放和提升蔬菜氮素利用效率的效果更佳,因此常规施氮+20 t/hm2 生物质炭是可推荐的减排增效措施.

[Objectives]Intensive vegetable cultivation in China is characterized by high nitrogen fertilizer application,multiple crop rotation and harvest.The frequent fertilization practice required by this production system leads to high nitrogen loss inevitably.The application of biochar has been proved of effectively improving soil physical,chemical and biological properties,and affecting the soil nitrogen cycle and crop yield.We studied the effects and mechanisms of different amounts of biochar application on N2O emission and crop yield.[Methods]A field experiment was conducted for continuous two-years in South China,and Indian lettuce and asparagus lettuce were cultivated in turn each year,with multiple harvests in each vegetable during their growing seasons.The experiment was consist of four treatments,including:no nitrogen fertilization control(CK),conventional nitrogen fertilization(NF),conventional nitrogen fertilization plus 20 t/hm2 biochar(NB20)and 40 t/hm2 biochar(NB40),respectively.The static dark box-gas chromatography was used to measure soil N2O emissions during the vegetable growing season.Soil samples were collected at the end harvest of the vegetables for measurement of soil physico-chemical properties and enzyme activities,and total vegetable yields were recorded.[Results]Compared with NF at the end of two-years of experiment,biochar application significantly increased soil total N,pH,available P and urease activity(P<0.05),and NB20 treatment was recorded significantly higher pH and available P than NB40.The soil N2O emission fluxes ranged from 42.8 to 7233.0 μg/(m2·h)under NF treatment,and 28.4 to 3188.1 μg/(m2·h)under biochar treatments,depending on temperature,season,and nitrogen fertilization.Compared with NF treatment,NB20 significantly reduced the cumulative N2O emissions by 64.3%-66.9%,and NB40 reduced that by 55.8%-62.5%,and there was no significant difference between the two treatments in the reduction effect.However,NB20 treatment significantly increased vegetable yield in two years,thereby reduced the unit yield N2O emissions by 56.4%-74.4%,and increased nitrogen uptake by 13.9%-32.9%,and the annual change was not significant.NB40 was recorded similar yield,unit yield N2O emission,and nitrogen use efficiency with NB20 in the first year,but significantly lower values in the second year,and also lower values than in the first year of itself,showing significant annual change.Correlation and redundancy analyses showed that soil pH was the main factor affecting N2O emissions,and available P,pH,and organic carbon were the main factors affecting vegetable yields.[Conclusions]Application of biochar in the intensive vegetable production fields could improve soil physico-chemical properties by elevating pH,total N,available P and enzyme activities,thus decrease soil N2O emissions and increase vegetable yields.Application of 20 t/hm2 biochar shows more stable effect in yield and soil pH than 40 t/hm2 biochar,so has higher effect in inducing the unit yield N2O emission and vegetable nitrogen use efficiency,and is recommended for practical use dosage.

陈宗海;石梦玄;刘一戈;李博;卢瑛

华南农业大学资源环境学院,广东广州 510642

生物质炭华南地区集约化菜地N2O氮素利用率

biocharSouth Chinaintensive vegetable fieldsN2Onitrogen use efficiency

《植物营养与肥料学报》 2024 (006)

1053-1063 / 11

国家自然科学基金项目(42277290,41807021).

10.11674/zwyf.2024011

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