作物学报
作物學報
작물학보
ACTA AGRONOMICA SINICA
2013年
3期
494-505
,共12页
吴自明%王竹青%李木英*%曾蕾%石庆华%潘晓华%谭雪明
吳自明%王竹青%李木英*%曾蕾%石慶華%潘曉華%譚雪明
오자명%왕죽청%리목영*%증뢰%석경화%반효화%담설명
杂交稻%衰老%水分亏缺%增氮%光合功能
雜交稻%衰老%水分虧缺%增氮%光閤功能
잡교도%쇠로%수분우결%증담%광합공능
Hybrid rice%Senescence%Water shortage%Additional nitrogen application%Photosynthetic function
为了探讨以水肥调控延长水稻结实期叶片功能的可能性,研究了早衰型和非早衰型杂交稻组合后期衰老过程中叶片光合功能对适度水分亏缺和增施氮肥的响应.结果表明,水稻灌浆期水分亏缺促使叶绿素和叶面积衰减加剧,加速 Rubisco 羧化活性和叶片光合功能衰退,叶片 ZR (玉米素核苷)含量下降.对缺水较敏感的中优838、天优998和隆平601其叶绿素衰减率提高了9%~12%;光合速率各下降了19.55%、19.12%、12.73%; ZR 含量、Rubisco羧化活性的降幅相对高于其余组合.在限水的同时增施氮肥明显缓解了水分亏缺胁迫的影响,但增氮效果组合间存在较大差异.叶绿素衰减率降低6.14%~27.10%;光合速率,隆平601、天优998、汕优63和中优838提高9.30%~15.81%,两优6326和C两优396提高3%~5%;Rubisco羧化活性,隆平601提高18.94%,中优838提高12.16%,其他组合提高3%~9%;增施氮肥提高了叶片ZR含量,中优838叶片ZR平均含量提高16.05%, C两优396和汕优63分别提高8.31%和8.16%,两优6326和隆平601分别提高4.90%和1.13%.相关分析表明,叶片ZR含量与叶光合速率和Rubisco活性呈极显著正相关, Rubisco羧化活性与光合速率和叶绿素含量极显著相关,叶片总糖含量和稻谷产量与光合速率相关显著和极显著.水稻灌浆期水分不足加速叶片衰老和光合功能衰退,在干旱胁迫时适量增施氮肥,是降低干旱胁迫危害、增强叶片光合功能、延长叶片功能期,防御早衰的有效措施.
為瞭探討以水肥調控延長水稻結實期葉片功能的可能性,研究瞭早衰型和非早衰型雜交稻組閤後期衰老過程中葉片光閤功能對適度水分虧缺和增施氮肥的響應.結果錶明,水稻灌漿期水分虧缺促使葉綠素和葉麵積衰減加劇,加速 Rubisco 羧化活性和葉片光閤功能衰退,葉片 ZR (玉米素覈苷)含量下降.對缺水較敏感的中優838、天優998和隆平601其葉綠素衰減率提高瞭9%~12%;光閤速率各下降瞭19.55%、19.12%、12.73%; ZR 含量、Rubisco羧化活性的降幅相對高于其餘組閤.在限水的同時增施氮肥明顯緩解瞭水分虧缺脅迫的影響,但增氮效果組閤間存在較大差異.葉綠素衰減率降低6.14%~27.10%;光閤速率,隆平601、天優998、汕優63和中優838提高9.30%~15.81%,兩優6326和C兩優396提高3%~5%;Rubisco羧化活性,隆平601提高18.94%,中優838提高12.16%,其他組閤提高3%~9%;增施氮肥提高瞭葉片ZR含量,中優838葉片ZR平均含量提高16.05%, C兩優396和汕優63分彆提高8.31%和8.16%,兩優6326和隆平601分彆提高4.90%和1.13%.相關分析錶明,葉片ZR含量與葉光閤速率和Rubisco活性呈極顯著正相關, Rubisco羧化活性與光閤速率和葉綠素含量極顯著相關,葉片總糖含量和稻穀產量與光閤速率相關顯著和極顯著.水稻灌漿期水分不足加速葉片衰老和光閤功能衰退,在榦旱脅迫時適量增施氮肥,是降低榦旱脅迫危害、增彊葉片光閤功能、延長葉片功能期,防禦早衰的有效措施.
위료탐토이수비조공연장수도결실기협편공능적가능성,연구료조쇠형화비조쇠형잡교도조합후기쇠로과정중협편광합공능대괄도수분우결화증시담비적향응.결과표명,수도관장기수분우결촉사협록소화협면적쇠감가극,가속 Rubisco 최화활성화협편광합공능쇠퇴,협편 ZR (옥미소핵감)함량하강.대결수교민감적중우838、천우998화륭평601기협록소쇠감솔제고료9%~12%;광합속솔각하강료19.55%、19.12%、12.73%; ZR 함량、Rubisco최화활성적강폭상대고우기여조합.재한수적동시증시담비명현완해료수분우결협박적영향,단증담효과조합간존재교대차이.협록소쇠감솔강저6.14%~27.10%;광합속솔,륭평601、천우998、산우63화중우838제고9.30%~15.81%,량우6326화C량우396제고3%~5%;Rubisco최화활성,륭평601제고18.94%,중우838제고12.16%,기타조합제고3%~9%;증시담비제고료협편ZR함량,중우838협편ZR평균함량제고16.05%, C량우396화산우63분별제고8.31%화8.16%,량우6326화륭평601분별제고4.90%화1.13%.상관분석표명,협편ZR함량여협광합속솔화Rubisco활성정겁현저정상관, Rubisco최화활성여광합속솔화협록소함량겁현저상관,협편총당함량화도곡산량여광합속솔상관현저화겁현저.수도관장기수분불족가속협편쇠로화광합공능쇠퇴,재간한협박시괄량증시담비,시강저간한협박위해、증강협편광합공능、연장협편공능기,방어조쇠적유효조시.
The response of photosynthetic function of leaves in aging process to water shortage and additional nitrogen applica-tion were studied using premature senescence type and non-premature senescence type of hybrid rice combinations. The results showed that chlorophyll content, leaf area, Rubisco activity and photosynthetic rate decreased, and ZR (zeatin riboside) content declined by water deficiency. There were significantly different responses to water shortage among different combinations. Under water stress, Zhongyou 838, Tianyou 998, and Longping 601 were more sensitive than others, and their chlorophyll decline rate increased by 9–12%, whereas photosynthetic rate decreased by 19.55%, 19.12%, and 12.73%respectively, and their ZR content, Rubisco activity dropped much more than those of other combinations. Under water shortage, additional nitrogen application rate could relieve the effect of water shortage stress, the decline rate of chlorophyll decreased by 6.14–27.10%, photosynthetic rate increased by 9.30–15.81%for Longping 601, Tianyou 998, Xianyou 63, and Zhongyou 838, and 3–5%for Liangyou 6326 and C Liangyou 396. And Rubisco activity was enhanced by 18.94%in Longping 601, 12.16%in Zhongyou 838, and 3–9% in other combinations. Additional nitrogen application increased ZR content by 16.05%in Zhongyou 838, 8.31%and 8.16%in C Lian-gyou 396 and Xianyou 63, and 4.90%and 1.13%in Liangyou 6326 and Longping 601. The correlation analysis showed that ZR content was positively correlated with, photosynthetic rate and Rubisco activity. Rubisco activity and photosynthetic rate had a positive correlation with chlorophyll content, and content of total sugars and yield were significantly correlated with photosyn-thetic rate. The conclusion was that water shortage speeds up the aging and the decline photosynthetic function decrease. Increas-ing moderate nitrogen fertilizer will delay the premature senescence of leaves caused by drought stress, enhance the photosyn-thetic function, and extend photosynthetic function period, suggesting that N nutrition is the most important factor for regulating rice leaf senescence.
