浙江农业学报
浙江農業學報
절강농업학보
ACTA AGRICULTURAE ZHEJIANGENSIS
2014年
4期
1015-1020
,共6页
金国强%徐攀峰%方文英%阮关海%陈合云%闫川
金國彊%徐攀峰%方文英%阮關海%陳閤雲%閆川
금국강%서반봉%방문영%원관해%진합운%염천
稻-麦栽培模式%周年高产%温室气体%农田
稻-麥栽培模式%週年高產%溫室氣體%農田
도-맥재배모식%주년고산%온실기체%농전
rice-wheat planting pattern%annual yield%greenhouse gases%field
通过研究水稻品种与种植方式对水稻生长阶段稻田CH4,N2 O,CO2排放的影响,探讨适宜浙江的低碳环保型稻-麦栽培模式。结果表明,麦季和稻季栽培方式明显影响水稻生长阶段稻田温室气体排放通量,麦季和稻季均免耕的处理,3种温室气体排放量均最大,显著高于稻麦旋耕的处理。不同类型水稻品种温室气体排放量有差异,杂交品种在分蘖期、拔节孕穗期和灌浆期CH4,N2 O,CO2的总排放量和单位籽粒产量的排放量低于常规水稻,差异达显著水平。土壤水势影响稻田温室气体的排放量,减少灌溉有利于稻田CH4, CO2排放量的降低,但过低的灌溉量会导致N2 O排放通量的显著增加和籽粒产量的明显下降。因此,通过选用杂交水稻品种,采用旋耕栽培方式,并配合土壤水势为-20~-30 kPa (田面无水层,土壤湿润无裂痕)的灌溉量,可显著减少稻田温室气体的排放。
通過研究水稻品種與種植方式對水稻生長階段稻田CH4,N2 O,CO2排放的影響,探討適宜浙江的低碳環保型稻-麥栽培模式。結果錶明,麥季和稻季栽培方式明顯影響水稻生長階段稻田溫室氣體排放通量,麥季和稻季均免耕的處理,3種溫室氣體排放量均最大,顯著高于稻麥鏇耕的處理。不同類型水稻品種溫室氣體排放量有差異,雜交品種在分蘗期、拔節孕穗期和灌漿期CH4,N2 O,CO2的總排放量和單位籽粒產量的排放量低于常規水稻,差異達顯著水平。土壤水勢影響稻田溫室氣體的排放量,減少灌溉有利于稻田CH4, CO2排放量的降低,但過低的灌溉量會導緻N2 O排放通量的顯著增加和籽粒產量的明顯下降。因此,通過選用雜交水稻品種,採用鏇耕栽培方式,併配閤土壤水勢為-20~-30 kPa (田麵無水層,土壤濕潤無裂痕)的灌溉量,可顯著減少稻田溫室氣體的排放。
통과연구수도품충여충식방식대수도생장계단도전CH4,N2 O,CO2배방적영향,탐토괄의절강적저탄배보형도-맥재배모식。결과표명,맥계화도계재배방식명현영향수도생장계단도전온실기체배방통량,맥계화도계균면경적처리,3충온실기체배방량균최대,현저고우도맥선경적처리。불동류형수도품충온실기체배방량유차이,잡교품충재분얼기、발절잉수기화관장기CH4,N2 O,CO2적총배방량화단위자립산량적배방량저우상규수도,차이체현저수평。토양수세영향도전온실기체적배방량,감소관개유리우도전CH4, CO2배방량적강저,단과저적관개량회도치N2 O배방통량적현저증가화자립산량적명현하강。인차,통과선용잡교수도품충,채용선경재배방식,병배합토양수세위-20~-30 kPa (전면무수층,토양습윤무렬흔)적관개량,가현저감소도전온실기체적배방。
In order to explore the suitable management approaches for low-carbon agricultural production in Zhejiang Province, the effects of rice varieties and planting pattern on CH4, N2O and CO2 emission were investigated.It was shown that the cultivation method of wheat and rice significantly influenced greenhouse gas emission during the rice season.Under the management of no tillage , the greenhouse gas emission was the largest , and was significantly higher than the management of rotary tillage .Rice varieties also influenced greenhouse gas emission .The total emissions of CH4 , N2 O, CO2 and emissions per unit grain yield of hybrid rice varieties were significantly lower than the conventional rice varieties in the tilling stage , jointing-booting stage and filling stage .Besides, soil water potential could impact greenhouse gas emission .Reducing rice irrigation decreased CH 4 and CO2 emission in the rice field.But, the excessive lowered irrigation would significantly increase N 2 O emission yet decrease the grain yield .In conclusion , the greenhouse gas emission in rice field could be significantly reduced by the combined management approaches , including applying hybrid rice variety and rotary tillage , and keeping the soil water potential at -20~-30 kPa.
