多效唑在土壤中降解、吸附和淋溶作用

本文研究了植物生长调节剂多效唑(MET)在土壤中的环境引为,MET在土壤中降解较缓慢并随土壤环境条件而异,淹水厌氧条件比旱地好氧条件降解更缓慢,灭菌土壤中未见明显降解,微生物培养试验表明,MET对真菌有明显抑止作用,以MET为唯一营养源的培养基上能生长出几种放线菌,在三种供试土壤中,MET在高有机质含量的黑土中吸附常数远大于黄棕壤和潮土;MET的淋溶则在砂粒含量较高和有机质含量较低的潮土中最快,黑土最慢,黄棕壤居间.     

多效唑对水生生物的急性毒性评价研究

本文以斜生栅藻、大型水蚤和草鱼为试验生物,研究植物生长调节剂多效唑对水生生物的急性毒性效应。多效唑对斜生栅藻EC_(50)-96h为20.62mg/l;对大型水蚤LC_(50)-48h为21.86mg/h;对草鱼苗静态生物检测结果为LC_(50)—120h 16.33mg/l,流水生物检测结果为LC_(50)-96h 14.36mg/l,LC_(50)-120h 9.13mg/l。经多效唑处理后,藻的细胞形态也发生明显改变。根据农药的实验室毒性评价划分标准,多效唑对三种生物的毒性均属低毒;田间安全性预评价的结果也表明其毒性为低毒,故认为多效唑是一种对水生生物危害较小的农药。但其慢性毒性及长期积累效应,尚有待进一步研究。     

多效唑的微生物毒性检测

多效唑是一种新开发的植物生长调节剂类农药。试验采用微生物毒性检测的力法,以混合细菌为材料,研究多效唑对细菌的生长速度、总脱氢酶活性和硝化作用的影响。结果表明,多效唑属低毒性农药,在一定范围内,各观察指标与多效唑浓度呈显著性负相关,即较低浓度的多效唑对细菌的生理活动有一定的刺激作用。     

Effects of paclobutrazol (PP333) on lead and zinc accumulations in Pseudostellaria maximowicziana

Paclobutrazol (PP333) can enhance the resistance capabilities of plants to stress conditions. In this study, PP333 were sprayed on the lead (Pb) and zinc (Zn) accumulator plant Pseudostellaria maximowicziana, which was planted in Pb–Zn contaminated soil, and the effects of PP333 on Pb and Zn accumulation levels in P. maximowicziana were studied. Spraying 10?mg/L PP333 increased, while 20, 30 and 50?mg/L PP333 decreased, the biomass of P. maximowicziana compared with the control. The 10?mg/L PP333 had no significant effects on the photosynthetic pigment contents of P. maximowicziana compared with the control, while the other doses increased the contents. The activities of antioxidant enzymes (superoxide dismutase, peroxidase and catalase) and the Pb and Zn concentrations in P. maximowicziana were increased by PP333 compared with the control. These items had the increase trend with the increase of PP333 concentrations. Only 10 and 20?mg/L PP333 increased the amount of Pb extracted by P. maximowicziana shoots, while all of the doses increased the amount of Zn extracted by P. maximowicziana shoots. Thus, low concentration of PP333 could promote the growth and heavy metal extraction ability of P. maximowicziana shoots, with the 10?mg/L being the best.     

Polyclonal antibody-based indirect competitive enzyme-linked immunosorbent assay for screening of paclobutrazol in fruits

Abstract

Paclobutrazol (PBZ) is a plant growth regulator (PGR) widely used in fruit and vegetable cultivation. However, due to the severe toxicity of PBZ, a sub-ppm level maximum residue limit (MRL) was established worldwide. Therefore, it is significant to propose a rapid, sensitive and high throughput screening method for monitoring the PBZ residues in foods. In this study, a simple and sensitive indirect competitive Enzyme-linked immunosorbent assay (icELISA) was established for PBZ detection in fruits basing polyclonal antibody. For both economy and pollution prevention, a microwave-solvent-free method was used to synthesize the PBZ hapten with high efficiency. The detection conditions, such as coating antigen concentration, antibody concentration, organic reagent concentration, ionic strength and pH, were optimized. Under the optimized conditions, this method showed high sensitivity and specificity. The detection range is 1.27-138.23?ng/mL, half-maximum inhibition concentration (IC₅₀) is 13.26?ng/mL, and the IC₂₀ was lower than the reported ELISAs for PBZ. Additionally, this method had high accuracy and precision. The recoveries were ranged from 88.78% to 96.80% in PBZ spiked apple samples with RSD below 4%. All the results showed that the polyclonal antibody based icELISA could be useful for PBZ screening in fruit samples.     

多效唑的生物降解性研究

利用从多效唑生产废水排放口土壤中富集获得的混合微生物和纯培养菌研究多效唑的生物降解性。结果表明，微生物生物量与多效唑相对浓度之间呈高度负相关（ｒ＝－０９３）。混合微生物降解多效唑较纯培养菌株快，降解的最适温度为３０℃，最适ｐＨ值为７０，对高ｐＨ值有耐受性。好氧和厌氧条件下微生物均能降解多效唑。富集培养物中的主要构成菌为假单孢菌属（Ｐｓｅｕｄｏｍｏｎａｓｓｐ）。降解动力学反应遵循Ｍｏｎｏｄ关系式。