中国农学通报
中國農學通報
중국농학통보
CHINESE AGRICULTURAL SCIENCE BULLETIN
2009年
15期
219-222
,共4页
曾凯%王尚明%张崇华%胡逢喜%张清霞%居为民
曾凱%王尚明%張崇華%鬍逢喜%張清霞%居為民
증개%왕상명%장숭화%호봉희%장청하%거위민
稻田%CO2通量%产量%光合有效辐射%气温
稻田%CO2通量%產量%光閤有效輻射%氣溫
도전%CO2통량%산량%광합유효복사%기온
paddy rice%CO2 flux%yield%photosynthetically active radiation%temperature
通过稻田生态系统3年CO2通量的日内变化、逐日变化趋势、CO2通量水平与产量高低的分析,以了解稻田生态系统产量形成期CO2通量特征、对产量的影响.将稻田CO2通量与光合有效辐射、气温进行回归分析,以掌握两者对水稻CO2同化消耗的影响.结果显示,水稻抽穗期、齐穗-乳熟CO2通量日变化呈较深"U"型,乳熟-成熟"U"型较浅;产量形成期白天CO2通量的逐日均值呈"√"型;抽穗期、齐穗-乳熟水稻处生长旺盛阶段,其白天CO2通量水平与产量高低基本一致;水稻时CO2的同化吸收与光合有效辐射、气温有极显著相关关系;南方稻作区对CO2的同化消耗强于三江平原等稻作区.
通過稻田生態繫統3年CO2通量的日內變化、逐日變化趨勢、CO2通量水平與產量高低的分析,以瞭解稻田生態繫統產量形成期CO2通量特徵、對產量的影響.將稻田CO2通量與光閤有效輻射、氣溫進行迴歸分析,以掌握兩者對水稻CO2同化消耗的影響.結果顯示,水稻抽穗期、齊穗-乳熟CO2通量日變化呈較深"U"型,乳熟-成熟"U"型較淺;產量形成期白天CO2通量的逐日均值呈"√"型;抽穗期、齊穗-乳熟水稻處生長旺盛階段,其白天CO2通量水平與產量高低基本一緻;水稻時CO2的同化吸收與光閤有效輻射、氣溫有極顯著相關關繫;南方稻作區對CO2的同化消耗彊于三江平原等稻作區.
통과도전생태계통3년CO2통량적일내변화、축일변화추세、CO2통량수평여산량고저적분석,이료해도전생태계통산량형성기CO2통량특정、대산량적영향.장도전CO2통량여광합유효복사、기온진행회귀분석,이장악량자대수도CO2동화소모적영향.결과현시,수도추수기、제수-유숙CO2통량일변화정교심"U"형,유숙-성숙"U"형교천;산량형성기백천CO2통량적축일균치정"√"형;추수기、제수-유숙수도처생장왕성계단,기백천CO2통량수평여산량고저기본일치;수도시CO2적동화흡수여광합유효복사、기온유겁현저상관관계;남방도작구대CO2적동화소모강우삼강평원등도작구.
Based on 3-year measurements of CO2 flux and yield taken in a paddy rice field in the suburb area of Nanchang, diurnal characteristics and temporal trend of daily CO2 flux during the yield formation stage were analyzed to identify the major futures of CO2 flux and to investigate the relationship between CO2 flux and yield. The response of CO2 flux to photosynthetically active radiation and temperature was also studied through regressive analysis. CO2 flux shows "U" shape diurnal patterns during the period of heading and the period from full heading to milky maturity. The diurnal amplitude of CO2 flux is larger during the heading period. The average of day-time CO, flux demonstrates a "√" shape temporal trend during the yield formation period. Day-time CO2 flux is generally consistent with yield during the period of heading and the period from full head-ing to milky maturity. Assimilation of CO2 by rice is significantly correlated with photosynthetically active radi-ation and temperature. The uptake of CO2 by rice is stronger in southern paddy rice field than in Sanjiang plain.