中国水稻科学
中國水稻科學
중국수도과학
Chinese Journal of Rice Science
2015年
6期
610-618
,共9页
张庆%王娟%景立权%杨连新%王云霞
張慶%王娟%景立權%楊連新%王雲霞
장경%왕연%경립권%양련신%왕운하
水稻%锌形态%锌浓度%植酸%锌有效性
水稻%鋅形態%鋅濃度%植痠%鋅有效性
수도%자형태%자농도%식산%자유효성
rice%Zn forms%Zn concentration%phytic acid%Zn bioavailability
2014年土培条件下,以日本晴、L81和 L71为供试材料,开花及花后1周叶面喷施硫酸锌、柠檬酸锌、葡萄糖酸锌和EDTA 二钠锌(Zn2+浓度均为0.2%,以喷施等量清水为对照),研究叶面喷施不同形态锌化合物对稻穗不同部位糙米锌浓度及有效性的影响.结果表明,稻穗不同部位糙米锌浓度差异显著,其中稻穗上部糙米锌浓度显著大于稻穗中部和下部,植酸、植酸与锌摩尔比则相反,不同处理趋势一致.与不施锌相比,硫酸锌、柠檬酸锌、葡萄糖酸锌和 EDTA 二钠锌使所有品种糙米锌浓度平均分别增加33%、31%、26%和27%,其中锌处理对稻穗上、中部糙米锌浓度的影响显著大于稻穗下部,供试材料中以日本晴的响应最大.锌处理对糙米植酸浓度影响较小,但对植酸与锌摩尔比影响较大.与对照相比,硫酸锌、柠檬酸锌、葡萄糖酸锌和 EDTA 二钠锌使所有品种糙米植酸与锌摩尔比平均分别下降25%、24%、22%和18%,其中稻穗上部和中部的降幅大于稻穗下部,日本晴和 L71的降幅大于 L81;锌处理×品种和锌处理×品种×部位间互作均达显著水平.以上数据说明,水稻籽粒生长早期喷锌处理可大幅增加糙米锌浓度及其生物有效性,增幅因锌化合物、供试品种以及籽粒在稻穗上的着生部位(以强势粒响应更大)而异.
2014年土培條件下,以日本晴、L81和 L71為供試材料,開花及花後1週葉麵噴施硫痠鋅、檸檬痠鋅、葡萄糖痠鋅和EDTA 二鈉鋅(Zn2+濃度均為0.2%,以噴施等量清水為對照),研究葉麵噴施不同形態鋅化閤物對稻穗不同部位糙米鋅濃度及有效性的影響.結果錶明,稻穗不同部位糙米鋅濃度差異顯著,其中稻穗上部糙米鋅濃度顯著大于稻穗中部和下部,植痠、植痠與鋅摩爾比則相反,不同處理趨勢一緻.與不施鋅相比,硫痠鋅、檸檬痠鋅、葡萄糖痠鋅和 EDTA 二鈉鋅使所有品種糙米鋅濃度平均分彆增加33%、31%、26%和27%,其中鋅處理對稻穗上、中部糙米鋅濃度的影響顯著大于稻穗下部,供試材料中以日本晴的響應最大.鋅處理對糙米植痠濃度影響較小,但對植痠與鋅摩爾比影響較大.與對照相比,硫痠鋅、檸檬痠鋅、葡萄糖痠鋅和 EDTA 二鈉鋅使所有品種糙米植痠與鋅摩爾比平均分彆下降25%、24%、22%和18%,其中稻穗上部和中部的降幅大于稻穗下部,日本晴和 L71的降幅大于 L81;鋅處理×品種和鋅處理×品種×部位間互作均達顯著水平.以上數據說明,水稻籽粒生長早期噴鋅處理可大幅增加糙米鋅濃度及其生物有效性,增幅因鋅化閤物、供試品種以及籽粒在稻穗上的著生部位(以彊勢粒響應更大)而異.
2014년토배조건하,이일본청、L81화 L71위공시재료,개화급화후1주협면분시류산자、저몽산자、포도당산자화EDTA 이납자(Zn2+농도균위0.2%,이분시등량청수위대조),연구협면분시불동형태자화합물대도수불동부위조미자농도급유효성적영향.결과표명,도수불동부위조미자농도차이현저,기중도수상부조미자농도현저대우도수중부화하부,식산、식산여자마이비칙상반,불동처리추세일치.여불시자상비,류산자、저몽산자、포도당산자화 EDTA 이납자사소유품충조미자농도평균분별증가33%、31%、26%화27%,기중자처리대도수상、중부조미자농도적영향현저대우도수하부,공시재료중이일본청적향응최대.자처리대조미식산농도영향교소,단대식산여자마이비영향교대.여대조상비,류산자、저몽산자、포도당산자화 EDTA 이납자사소유품충조미식산여자마이비평균분별하강25%、24%、22%화18%,기중도수상부화중부적강폭대우도수하부,일본청화 L71적강폭대우 L81;자처리×품충화자처리×품충×부위간호작균체현저수평.이상수거설명,수도자립생장조기분자처리가대폭증가조미자농도급기생물유효성,증폭인자화합물、공시품충이급자립재도수상적착생부위(이강세립향응경대)이이.
Zinc (Zn)biofortification through foliar Zn application is an attractive strategy to reduce Zn deficiency.Four Zn compounds were applied through foliar spray to three rice varieties at flowering and one week after flowering under field conditions.The concentrations of Zn and phytic acid in brown rice were measured.The results showed that Zn concentration in grains from different parts of a panicle varied significantly,with Zn concentration of grains from upper part of a panicle being higher than that of middle or lower parts.In contrast,phytic acid or the molar ratio of phytic acid to Zn showed the opposite trend.Compared with CK (water spray ), foliar application of ZnSO4 , Zn-citrate, Zn-gluconate and Zn-EDTA increased Zn concentration by 33%,3 1 %,26% and 27%,respectively.The grains at upper or middle parts of a panicle were affected much more than that at lower part.Nipponbare was more sensitive to Zn application than other varieties.Zinc treatment had little effect on the concentration of phytic acid.Averaged across all varieties,the molar ratio of phytic acid to Zn in brown rice was reduced by 25 %,24%,22% and 18% through foliar application of ZnSO4 ,Zn-Citrate,Zn-Gluconate and Zn-EDTA,respectively.The reduction was greater in the grains from upper or middle parts than lower part of a panicle.The reduction in Nipponbare or L71 was greater than that in L81 .Significant Zn× variety interaction and Zn× variety × position interaction were detected.In conclusion, foliar Zn application at early grain growing stage significantly increased Zn concentration and bioavailability,and the increment varied with Zn compound,genotype and grain position,with superior spikelets being more susceptible.
