农业环境科学学报
農業環境科學學報
농업배경과학학보
Journal of Agro-Environment Science
2010年
4期
613-618
,共6页
梁晶%朱建国%曾青%谢祖彬%刘钢%唐昊冶%曹际玲%朱春梧
樑晶%硃建國%曾青%謝祖彬%劉鋼%唐昊冶%曹際玲%硃春梧
량정%주건국%증청%사조빈%류강%당호야%조제령%주춘오
净光合速率%气孔导度%O3-FACE%胞间CO2浓度
淨光閤速率%氣孔導度%O3-FACE%胞間CO2濃度
정광합속솔%기공도도%O3-FACE%포간CO2농도
net photosynthetic rate%stomatal conductance%O3-FACE%intercellular CO2 concentration
运用开放式臭氧浓度升高系统(O3-FACE:Ozone-free air controlled enrichment)平台,以武运粳21(粳稻)和两优培九(杂交稻)两个耐性不同的品种为材料,研究了大气臭氧浓度升高对水稻叶片光合作用日变化的影响,旨在为高臭氧浓度条件下水稻生产和国家粮食安全的制定提供理论依据.结果表明,臭氧胁迫未改变光合作用日变化规律,处理和对照下净光合速率和气孔导度日变化相似,均呈现单峰曲线,高峰值出现在11:00-15:00之间;胞间CO2浓度日变化趋势与气孔导度和净光合速率日变化不一致;臭氧处理55 d对净光合速率和气孔导度影响较小,随着处理时间的延长,相关指标降低幅度变大,而胞间CO2浓度没有降低,说明臭氧对水稻的影响是一个累积过程,净光合速率降低的主要因素是由非气孔限制引起的;武运粳21的净光合速率和气孔导度在臭氧处理时的降低幅度小于两优培九,这种品种间的差异表明武运粳21比两优培九对臭氧耐受性强.
運用開放式臭氧濃度升高繫統(O3-FACE:Ozone-free air controlled enrichment)平檯,以武運粳21(粳稻)和兩優培九(雜交稻)兩箇耐性不同的品種為材料,研究瞭大氣臭氧濃度升高對水稻葉片光閤作用日變化的影響,旨在為高臭氧濃度條件下水稻生產和國傢糧食安全的製定提供理論依據.結果錶明,臭氧脅迫未改變光閤作用日變化規律,處理和對照下淨光閤速率和氣孔導度日變化相似,均呈現單峰麯線,高峰值齣現在11:00-15:00之間;胞間CO2濃度日變化趨勢與氣孔導度和淨光閤速率日變化不一緻;臭氧處理55 d對淨光閤速率和氣孔導度影響較小,隨著處理時間的延長,相關指標降低幅度變大,而胞間CO2濃度沒有降低,說明臭氧對水稻的影響是一箇纍積過程,淨光閤速率降低的主要因素是由非氣孔限製引起的;武運粳21的淨光閤速率和氣孔導度在臭氧處理時的降低幅度小于兩優培九,這種品種間的差異錶明武運粳21比兩優培九對臭氧耐受性彊.
운용개방식취양농도승고계통(O3-FACE:Ozone-free air controlled enrichment)평태,이무운갱21(갱도)화량우배구(잡교도)량개내성불동적품충위재료,연구료대기취양농도승고대수도협편광합작용일변화적영향,지재위고취양농도조건하수도생산화국가양식안전적제정제공이론의거.결과표명,취양협박미개변광합작용일변화규률,처리화대조하정광합속솔화기공도도일변화상사,균정현단봉곡선,고봉치출현재11:00-15:00지간;포간CO2농도일변화추세여기공도도화정광합속솔일변화불일치;취양처리55 d대정광합속솔화기공도도영향교소,수착처리시간적연장,상관지표강저폭도변대,이포간CO2농도몰유강저,설명취양대수도적영향시일개루적과정,정광합속솔강저적주요인소시유비기공한제인기적;무운갱21적정광합속솔화기공도도재취양처리시적강저폭도소우량우배구,저충품충간적차이표명무운갱21비량우배구대취양내수성강.
In order to elaborating the response of rice to high ozone concentration,the leaf diurnal photosynthesis of two rice varieties (Wuyunjing 21 and Liangyoupeijiu)was investigated via O3-FACE(ozone-free air control enrichment)platform.This research could provide a theoretical basis for the development of rice production and national food security under high ozone concentration.Ozone fumigation began on July 1,2008,and ended on Oct 10,2008.56% of the time was used for active fumigation.The results showed that ozone stress did not change the diurnal pattern of photosynthesis;the maximum diurnal net photosynthetic rate(Pn)and stomatal conductance(Gs)occurred at 11:00-15:00.The diurnal pattern of internal cellular CO2 concentration(Ci)was inconsistent with that of Pn and Gs(Ci did not significantly decreased during ozone fumigation).Ozone had little effect on Pn and Gs at 55 days treatment,afterwards,with the extension of fumigation time the reductions of Pn and Gs were enlarged,however,no significant impact on leaf intercellular CO2 concentration was found.This indicated that the impact of ozone on rice was a cumulative effect and the depression of net photosynthetic rate was mainly restricted by nonstomatal factors.The Pn and Gs of Liangyoupeijiu decreased more than those of Wuyunjing 21,indicating that Wuyunjing 21 was more tolerant to ozone than Liangyoupeijiu.
