果园蓄水坑灌条件下不同施肥方案对坑壁土壤氨挥发的影响
【目的】探讨果园蓄水坑灌条件下蓄水坑壁土壤氨挥发损失规律及影响因素。【方法】试验以追肥量(600、300、0 kg/hm2)和追肥时期(花后、果实膨大期、花后及果实膨大期平均追肥)为变量,设置7个处理。采用磷酸甘油-通气法收集坑壁土壤氨挥发并分析其与铵态氮、硝态氮、土壤温度、空气温度和湿度的关系。【结果】蓄水坑灌水肥灌施后氨挥发速率随追肥量增加而增加,花后期追肥后氨挥发持续时间长,峰值出现在肥后第3~5天,为52.93~576.80 mg/(m2·d);果实膨大期追肥后氨挥发持续时间短,峰值出现在肥后第2天,为81.11~1 047.79 mg/(m2·d)。花后期一次性追肥氨挥发累积量(以N...
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| Published in | Guanʻgai paishui xuebao Vol. 38; no. 7; pp. 52 - 59 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | Chinese |
| Published |
Xinxiang City
Chinese Academy of Agricultural Sciences (CAAS) Farmland Irrigation Research Institute Editorial Office of Journal of Irrigation and Drainage
01.07.2019
太原理工大学水利科学与工程学院,太原,030024%太原理工大学水利科学与工程学院,太原030024 晋中学院,山西晋中030600 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1672-3317 |
| DOI | 10.13522/j.cnki.ggps.20180706 |
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| Abstract | 【目的】探讨果园蓄水坑灌条件下蓄水坑壁土壤氨挥发损失规律及影响因素。【方法】试验以追肥量(600、300、0 kg/hm2)和追肥时期(花后、果实膨大期、花后及果实膨大期平均追肥)为变量,设置7个处理。采用磷酸甘油-通气法收集坑壁土壤氨挥发并分析其与铵态氮、硝态氮、土壤温度、空气温度和湿度的关系。【结果】蓄水坑灌水肥灌施后氨挥发速率随追肥量增加而增加,花后期追肥后氨挥发持续时间长,峰值出现在肥后第3~5天,为52.93~576.80 mg/(m2·d);果实膨大期追肥后氨挥发持续时间短,峰值出现在肥后第2天,为81.11~1 047.79 mg/(m2·d)。花后期一次性追肥氨挥发累积量(以N计算)为3 332.88~7 052.01 mg,果实膨大期一次性追肥氨挥发累积量为2 178.14~5 126.97 mg,比花后期一次性追肥降低27.30%~34.65%。2次追肥期平均追肥氨挥发累积量最小,为2 013.21~4 642.11 mg,比花后期一次性追肥降低34.17%~39.60%。蓄水坑壁氨挥发损失率为0.57%~1.4%,其中花后期一次性追肥氨挥发损失率最大,果实膨大期一次性追肥次之,平均追施最小。氨挥发速率与土壤铵态氮量和空气温度显著正相关(P<0.05),土壤温度和硝态氮通过铵态氮浓度影响氨挥发,较高的空气湿度和施肥后降雨会降低氨挥发速率。Elovich动力学方程可以较好地描述蓄水坑壁氨挥发累积量动态变化过程,氨挥发速率常数a与追氮量显著正相关,与土壤温度显著负相关。【结论】降低追肥量、分次追施能减少坑壁土壤的氨挥发损失,基于蓄水坑灌法在果园进行水肥灌施具有较好的减排保肥效果。 |
|---|---|
| AbstractList | S275.9; [目的]探讨果园蓄水坑灌条件下蓄水坑壁土壤氨挥发损失规律及影响因素.[方法]试验以追肥量(600、300、0 kg/hm2)和追肥时期(花后、果实膨大期、花后及果实膨大期平均追肥)为变量,设置7个处理.采用磷酸甘油-通气法收集坑壁土壤氨挥发并分析其与铵态氮、硝态氮、土壤温度、空气温度和湿度的关系.[结果]蓄水坑灌水肥灌施后氨挥发速率随追肥量增加而增加,花后期追肥后氨挥发持续时间长,峰值出现在肥后第3~5天,为52.93~576.80 mg/(m2·d);果实膨大期追肥后氨挥发持续时间短,峰值出现在肥后第2天,为81.11~1047.79 mg/(m2·d).花后期一次性追肥氨挥发累积量(以N计算)为3332.88~7052.01 mg,果实膨大期一次性追肥氨挥发累积量为2178.14~5126.97 mg,比花后期一次性追肥降低27.30%~34.65%.2次追肥期平均追肥氨挥发累积量最小,为2013.21~4642.11 mg,比花后期一次性追肥降低34.17%~39.60%.蓄水坑壁氨挥发损失率为0.57%~1.4%,其中花后期一次性追肥氨挥发损失率最大,果实膨大期一次性追肥次之,平均追施最小.氨挥发速率与土壤铵态氮量和空气温度显著正相关(P<0.05),土壤温度和硝态氮通过铵态氮浓度影响氨挥发,较高的空气湿度和施肥后降雨会降低氨挥发速率.Elovich动力学方程可以较好地描述蓄水坑壁氨挥发累积量动态变化过程,氨挥发速率常数a与追氮量显著正相关,与土壤温度显著负相关.[结论]降低追肥量、分次追施能减少坑壁土壤的氨挥发损失,基于蓄水坑灌法在果园进行水肥灌施具有较好的减排保肥效果. 【目的】探讨果园蓄水坑灌条件下蓄水坑壁土壤氨挥发损失规律及影响因素。【方法】试验以追肥量(600、300、0 kg/hm2)和追肥时期(花后、果实膨大期、花后及果实膨大期平均追肥)为变量,设置7个处理。采用磷酸甘油-通气法收集坑壁土壤氨挥发并分析其与铵态氮、硝态氮、土壤温度、空气温度和湿度的关系。【结果】蓄水坑灌水肥灌施后氨挥发速率随追肥量增加而增加,花后期追肥后氨挥发持续时间长,峰值出现在肥后第3~5天,为52.93~576.80 mg/(m2·d);果实膨大期追肥后氨挥发持续时间短,峰值出现在肥后第2天,为81.11~1 047.79 mg/(m2·d)。花后期一次性追肥氨挥发累积量(以N计算)为3 332.88~7 052.01 mg,果实膨大期一次性追肥氨挥发累积量为2 178.14~5 126.97 mg,比花后期一次性追肥降低27.30%~34.65%。2次追肥期平均追肥氨挥发累积量最小,为2 013.21~4 642.11 mg,比花后期一次性追肥降低34.17%~39.60%。蓄水坑壁氨挥发损失率为0.57%~1.4%,其中花后期一次性追肥氨挥发损失率最大,果实膨大期一次性追肥次之,平均追施最小。氨挥发速率与土壤铵态氮量和空气温度显著正相关(P<0.05),土壤温度和硝态氮通过铵态氮浓度影响氨挥发,较高的空气湿度和施肥后降雨会降低氨挥发速率。Elovich动力学方程可以较好地描述蓄水坑壁氨挥发累积量动态变化过程,氨挥发速率常数a与追氮量显著正相关,与土壤温度显著负相关。【结论】降低追肥量、分次追施能减少坑壁土壤的氨挥发损失,基于蓄水坑灌法在果园进行水肥灌施具有较好的减排保肥效果。 |
| Author | SUN, Ruifeng SUN Xihuan LI, Siyi GUO Xianghong Li, MA ZHANG Rentian GAO, Juan MA Juanjuan |
| AuthorAffiliation | 太原理工大学水利科学与工程学院,太原,030024%太原理工大学水利科学与工程学院,太原030024;晋中学院,山西晋中030600 |
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| Author_FL | SUN Xihuan MA Li GUO Xianghong ZHANG Rentian LI Siyi GAO Juan SUN Ruifeng MA Juanjuan |
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| Copyright | Copyright Chinese Academy of Agricultural Sciences (CAAS) Farmland Irrigation Research Institute Editorial Office of Journal of Irrigation and Drainage 2019 Copyright © Wanfang Data Co. Ltd. All Rights Reserved. |
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| Publisher | Chinese Academy of Agricultural Sciences (CAAS) Farmland Irrigation Research Institute Editorial Office of Journal of Irrigation and Drainage 太原理工大学水利科学与工程学院,太原,030024%太原理工大学水利科学与工程学院,太原030024 晋中学院,山西晋中030600 |
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| Snippet | 【目的】探讨果园蓄水坑灌条件下蓄水坑壁土壤氨挥发损失规律及影响因素。【方法】试验以追肥量(600、300、0 kg/hm2)和追肥时期(花后、果实膨大期、花后及果实膨大期平均追肥)为... S275.9; [目的]探讨果园蓄水坑灌条件下蓄水坑壁土壤氨挥发损失规律及影响因素.[方法]试验以追肥量(600、300、0 kg/hm2)和追肥时期(花后、果实膨大期、花后及果实膨大期平均追... |
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| SubjectTerms | Air temperature Ammonia Ammonium Arid regions Arid zones Correlation Enlargement Fertilization Fertilizer application Fertilizers Fruits Glycerophosphate Humidity Irrigation Irrigation water Nitrogen Orchards Rainfall Soil analysis Soil temperature Soil water storage Soils Temperature dependence Vaporization Volatilization Water storage |
| Title | 果园蓄水坑灌条件下不同施肥方案对坑壁土壤氨挥发的影响 |
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