植物营养与肥料学报
植物營養與肥料學報
식물영양여비료학보
PLANT NUTRITION AND FERTILIZER SCIENCE
2009年
4期
737-743
,共7页
水稻%节水栽培%氮代谢%生理特性
水稻%節水栽培%氮代謝%生理特性
수도%절수재배%담대사%생리특성
rice%water-saving cultivation%nitrogen metabolism%physiological characteristics
田间试验研究了节水栽培对水稻某些氮代谢生理特性的影响.结果表明,覆膜旱作水稻产量比常规水作显著降低,与棵地旱作相比则显著提高;3种栽培模式水稻叶片中氨基酸态氮和硝态氮含量、硝酸还原酶、谷氨酰胺合成酶、谷草转氨酶和谷氨转氨酶活性均表现为生育前期较高、生育后期较低的动态特征.与常规水作相比,生育前期覆膜旱作水稻叶片中氨基酸态氮和硝态氮含量、硝酸还原酶和谷氨酰胺合成酶活性均有所增加;整个生育期间谷草转氨酶活性有所降低而谷丙转氨酶活性则提高.与裸地旱作相比,覆膜旱作对水稻叶片中氨基酸态氮和硝态氮含量、硝酸还原酶、谷氨酰胺合成酶、谷草转氨酶和谷丙转氨酶活性都有提高.水分胁迫对氮代谢生理特性及产量具有一定的负效应,而覆膜旱作能不同程度缓解这种效应,甚至有所促进;适量增加氮肥用量可以提高覆膜旱作氮代谢牛理活性(尤其生育早期)及产量.
田間試驗研究瞭節水栽培對水稻某些氮代謝生理特性的影響.結果錶明,覆膜旱作水稻產量比常規水作顯著降低,與棵地旱作相比則顯著提高;3種栽培模式水稻葉片中氨基痠態氮和硝態氮含量、硝痠還原酶、穀氨酰胺閤成酶、穀草轉氨酶和穀氨轉氨酶活性均錶現為生育前期較高、生育後期較低的動態特徵.與常規水作相比,生育前期覆膜旱作水稻葉片中氨基痠態氮和硝態氮含量、硝痠還原酶和穀氨酰胺閤成酶活性均有所增加;整箇生育期間穀草轉氨酶活性有所降低而穀丙轉氨酶活性則提高.與裸地旱作相比,覆膜旱作對水稻葉片中氨基痠態氮和硝態氮含量、硝痠還原酶、穀氨酰胺閤成酶、穀草轉氨酶和穀丙轉氨酶活性都有提高.水分脅迫對氮代謝生理特性及產量具有一定的負效應,而覆膜旱作能不同程度緩解這種效應,甚至有所促進;適量增加氮肥用量可以提高覆膜旱作氮代謝牛理活性(尤其生育早期)及產量.
전간시험연구료절수재배대수도모사담대사생리특성적영향.결과표명,복막한작수도산량비상규수작현저강저,여과지한작상비칙현저제고;3충재배모식수도협편중안기산태담화초태담함량、초산환원매、곡안선알합성매、곡초전안매화곡안전안매활성균표현위생육전기교고、생육후기교저적동태특정.여상규수작상비,생육전기복막한작수도협편중안기산태담화초태담함량、초산환원매화곡안선알합성매활성균유소증가;정개생육기간곡초전안매활성유소강저이곡병전안매활성칙제고.여라지한작상비,복막한작대수도협편중안기산태담화초태담함량、초산환원매、곡안선알합성매、곡초전안매화곡병전안매활성도유제고.수분협박대담대사생리특성급산량구유일정적부효응,이복막한작능불동정도완해저충효응,심지유소촉진;괄량증가담비용량가이제고복막한작담대사우리활성(우기생육조기)급산량.
Field experiments were conducted to evaluate the effects of water-saving cultivation on some nitrogen nutritional physiology traits of rice taking traditional flooding cultivation (TF) as check. The results showed that the rice grain yield of non-flooded film mulching cultivation (PM) was significantly declined below TF, and markedly increased over non-flooding unmulching cultivation (UM). The patterns of the free amino acid (AA-N) and nitrate concentrations (NO3--N), nitrate reductase (NR), glutamine synthetase (GS), glutamic oxalacetic transferase (GOT) and glutamic pyruvic transferase (GPT) activities were analogously characterized by higher concentrations/activities at early growth stages than later stages especially the four enzymes. Compared with TF, PM had some positive influence on AA-N, NO3--N, NR and GS in rice leaves at early growth stages, and decreased GOT but increased GPT in leaves during the growing season.Compared with UM, PM increased AA-N, NO3--N, NR, GS, GOT and GPT activities in leaves. Soil water-stress had a negative effect on nitrogen metabolisms in rice leaves and subsequent straw and grain yields, however, PM system tend to alleviate the negative effect even promote them. Nitrogen can improved the traits of PM treatments especially at early growth stages.