广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2015年
8期
77-79,160
,共4页
张文娟%朱文辉%陈虹颖%李琦琳%梁俊镔%王土莲%柯德森
張文娟%硃文輝%陳虹穎%李琦琳%樑俊鑌%王土蓮%柯德森
장문연%주문휘%진홍영%리기림%량준빈%왕토련%가덕삼
水解%蝇蛆营养液%植物生物调节剂
水解%蠅蛆營養液%植物生物調節劑
수해%승저영양액%식물생물조절제
hydrolysis%musca domestica nutrient solution%plant biological regulator
将家蝇( Musca domestica)蝇蛆蛋白经过水解,在最佳水解条件下得到蝇蛆营养液,把蝇蛆营养液稀释成梯度浓度,作为植物生物调节剂在绿豆幼苗生长过程中定期施加,测定蝇蛆营养液对绿豆株重、含水量、氨基酸含量、叶片细胞叶光系统II光化学效率的影响。结果表明:随着蝇蛆营养液的浓度升高,绿豆体内的含水量、氨基酸含量明显升高,绿豆叶片的光合作用的效率在加入较高浓度的营养液之后明显升高。本研究结果有助于利用蝇蛆营养液天然无污染,成本低的特点,开发可以广泛应用于农业生产的植物生物调节剂,以满足当下市场的需求,也可为以后其他植物生物调节剂研究提供一定的依据。
將傢蠅( Musca domestica)蠅蛆蛋白經過水解,在最佳水解條件下得到蠅蛆營養液,把蠅蛆營養液稀釋成梯度濃度,作為植物生物調節劑在綠豆幼苗生長過程中定期施加,測定蠅蛆營養液對綠豆株重、含水量、氨基痠含量、葉片細胞葉光繫統II光化學效率的影響。結果錶明:隨著蠅蛆營養液的濃度升高,綠豆體內的含水量、氨基痠含量明顯升高,綠豆葉片的光閤作用的效率在加入較高濃度的營養液之後明顯升高。本研究結果有助于利用蠅蛆營養液天然無汙染,成本低的特點,開髮可以廣汎應用于農業生產的植物生物調節劑,以滿足噹下市場的需求,也可為以後其他植物生物調節劑研究提供一定的依據。
장가승( Musca domestica)승저단백경과수해,재최가수해조건하득도승저영양액,파승저영양액희석성제도농도,작위식물생물조절제재록두유묘생장과정중정기시가,측정승저영양액대록두주중、함수량、안기산함량、협편세포협광계통II광화학효솔적영향。결과표명:수착승저영양액적농도승고,록두체내적함수량、안기산함량명현승고,록두협편적광합작용적효솔재가입교고농도적영양액지후명현승고。본연구결과유조우이용승저영양액천연무오염,성본저적특점,개발가이엄범응용우농업생산적식물생물조절제,이만족당하시장적수구,야가위이후기타식물생물조절제연구제공일정적의거。
The housefly ( musca domestica) fly larval protein was hydrolyzed for musca domestica nutrient solution under the optimum hydrolysis conditions, and the solution was diluted into a concentration gradient as a plant growth regulator applied in biological process in Mungbean Seedlings.The effects of operating parameters including strains of green beans, water content, amino acid content and the photochemical efficiency of leaf cell's photosystem II were measured.The results showed that as the concentration of the Musca domestica nutrient solution increased, the water content and amino acid content in the Munbean seedling increased significantly.Moreover, the photosynthesis efficiency of Mungbean leaves significantly increased after incubated in a higher concentration of the nutrient solution.The results could help to contribute to taking advantage of a natural, non-pollution and low cost nutrient solution, which could be developed and widely applied to plant bioregulators of agricultural production to meet the needs of the current market.The properties of Musca domestica nutrition could provide some experience and methods to the study for the future of plant bioregulators.
