中国农业科学 ›› 2018, Vol. 51 ›› Issue (20): 3972-3984.doi: 10.3864/j.issn.0578-1752.2018.20.015
徐驰(), 谢海宽, 丁武汉, 戴震, 张婧, 王立刚, 李虎(
)
收稿日期:
2018-01-22
接受日期:
2018-07-06
出版日期:
2018-10-16
发布日期:
2018-10-16
作者简介:
联系方式:徐驰,E-mail:
基金资助:
Chi XU(), HaiKuan XIE, WuHan DING, Zhen DAI, Jing ZHANG, LiGang WANG, Hu LI(
)
Received:
2018-01-22
Accepted:
2018-07-06
Online:
2018-10-16
Published:
2018-10-16
摘要:
【目的】探究一次性施肥技术对油菜-水稻复种系统CH4和N2O排放及其特征的影响并分析其影响因素,综合计算全球增温潜势,以期了解一次性施肥技术对温室气体排放的贡献大小,从而为温室气体减排提供科学依据和技术参考。【方法】针对长江中下游地区典型的油菜-水稻复种模式,在荆州太湖港农场(30.36N,112.08E)油菜-水稻复种试验田设置了5个处理:对照处理(CK)、农民习惯施肥处理(FP)、优化施肥处理(OPT)、一次性尿素基施处理(UA)和一次性控释肥基施处理(CRF),重复3次。采用静态暗箱-气相色谱法对整个油菜-水稻季的CH4和N2O排放通量进行监测,并测定土壤种植前后的理化性质与作物产量。【结果】(1)N2O和CH4的排放均具有明显的水稻季排放高、油菜季排放低的季节动态变化规律。各处理N2O排放通量在油菜季的变化范围为-4.08—35.51 μg N·m-2·h-1,水稻季则为-16.52—193.30 μg N·m-2·h-1,年平均排放通量3.66—23.70 μg N·m-2·h-1;各处理CH4的通量变化在油菜季的排放量为-0.08—0.05 mg C·m-2·h-1,水稻季则为-0.54—4.81 mg C·m-2·h-1,年平均排放通量0.42—0.66 mg C·m-2·h-1;(2)N2O年排放总量从高到低依次是FP、CRF、OPT、UA、CK,分别为1.31、1.19、1.04、0.82、0.37 kg N·hm-2,排放系数介于0.14%—0.25%,均低于IPCC的推荐值1%。两个一次性施肥处理的UA和CRF相比同等施氮量的OPT处理,均能有效减少CH4年排放量29.0%和29.9%, UA处理同时能减少21.2%的N2O年排放总量,而CRF处理却增加了14.8%的N2O年排放总量;(3)在同等施氮量的条件下,一次性施肥CRF比OPT显著增加油菜产量10.6 %,而对水稻产量的影响不显著。温室气体排放强度呈现油菜季低,而水稻季高的特征,油菜和水稻季中各处理差异均不显著,油菜季中CRF和UA的排放强度最低为0.038 kgCO2-eq·kg-1,OPT最高为0.057 kgCO2-eq·kg-1,水稻季UA最小为0.07 kgCO2-eq·kg-1,FP最高达到了0.13 kgCO2-eq·kg-1;(4)综合两种气体的全球增温潜势(100 a),用GWP表示,在相同施氮量下,两个一次性施肥处理UA和CRF的GWP均较OPT处理减少了28.0%和18.2%(P<0.05),一次性基施尿素对降低温室效应更有效。【结论】对于长江中下游典型农田而言,一次性基施普通尿素或一次性基施控释尿素的措施,可以在保持作物产量的同时,降低了农田温室气体排放,可作为水稻-油菜复种系统的一种环境友好型施肥推荐技术。
徐驰, 谢海宽, 丁武汉, 戴震, 张婧, 王立刚, 李虎. 油菜-水稻复种系统一次性施肥对CH4和N2O净排放的影响[J]. 中国农业科学, 2018, 51(20): 3972-3984.
Chi XU, HaiKuan XIE, WuHan DING, Zhen DAI, Jing ZHANG, LiGang WANG, Hu LI. The Impacts of CH4 and N2O Net Emission Under One-Off Fertilization of Rape-Paddy Replanting System[J]. Scientia Agricultura Sinica, 2018, 51(20): 3972-3984.
表1
油菜-水稻复种期内氮肥施肥种类和施肥量"
处理 Treatment | 氮肥种类 Types of fertilizers | 施肥方式 Nitrogen supply methods | 氮肥用量Level of N fertilizers (kg N·hm-2) | |
---|---|---|---|---|
油菜Rape | 水稻Paddy | |||
CK | - | - | - | - |
FP | 尿素Urea | 60%基肥+20%越冬+20%抽薹前期(油菜) 60% Base fertilizer + 20% Overwintering + 20% Prophase of bolting (Rape) 70%基肥+30%分蘖肥(水稻) 70% Base fertilizer + 30% Tillering stage dressing (Rice) | 210 | 210 |
OPT | 尿素Urea | 60%基肥+20%越冬+20%抽薹前期(油菜) 60% Base fertilizer + 20% Overwintering + 20% Prophase of bolting(Rape) 50%基肥+25%分蘖肥+25%穗肥(水稻) 50% Base fertilizer + 25% Tillering stage dressing + 25% Panicle fertilizer (Rice) | 165 | 165 |
UA | 尿素Urea | 全部基施All basal fertilization | 165 | 165 |
CRF | CRF | 全部基施All basal fertilization | 165 | 165 |
表2
不同施肥方式下油菜-水稻的GWP(100 a)"
处理 Treatment | CH4 | N2O | GWP | ||
---|---|---|---|---|---|
油菜 Rape | 水稻 Paddy | 油菜 Rape | 水稻 Paddy | ||
CK | -12.93a | 552.24ab | 47.74a | 73.65c | 660.71c |
FP | 5.84a | 709.76a | 85.32a | 261.44a | 1062.36a |
OPT | 10.76a | 584.26ab | 117.52a | 178.06ab | 890.61ab |
UA | -5.16a | 389.17b | 93.91a | 125.54bc | 603.46c |
CRF | -21.52a | 438.41b | 73.27a | 243.09ab | 733.25bc |
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