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全国近20家权威机构纷纷精心组织对比实验、大面积推广,用确凿的数据一次又一次证明了强的纳米863的科技威力。江西省农科院水稻所强的纳米863用于水稻生产,平均亩增产15.7%。其米质经农业部稻米质量监督检验测试中心检验,糙米的整精米率、胶稠度分别比对照组提高31.2%和15%。江西蔬菜科学研究所强的纳米863用于蔬菜栽培,种子的发芽势比对照组高41.4%,平均亩增产35.9%。江苏南师大生命科学院经过美国 MRC-102激光共聚焦显微镜等仪器检测,强的纳米863用于农作物对比试验,实验组的 SOD、POD(过氧化物酶)、CAT(过氧化氢酶)分别比对照组提高57%、76.12%、75.22%,从而增强了植物抗逆能力,最终提高了产量与品质。实验组农作物中的硝酸还原酶比对照组高出132.35%,表明吸收水肥、利用氮肥的能力极大提高,可节省化肥、农药的用量30%以上。江西农科院蔬菜花卉研究所用强的纳米863处理豇豆种子,平均
Nearly 20 authoritative bodies across the country have carefully organized comparative experiments, large-scale promotion, with conclusive data again and again proved that the strong nano-863’s technological power. Jiangxi Academy of Agricultural Sciences rice Nano 863 strong for rice production, an average increase of 15.7% yield mu. The quality of its rice by the Ministry of Agriculture Rice Quality Supervision and Testing Center test, brown rice milled rice rate, gel consistency than the control group increased by 31.2% and 15%. Jiangxi Institute of Vegetable Science and strong nano-863 for vegetable cultivation, seed germination potential 41.4% higher than the control group, an average increase of 35.9% yield mu. Jiangsu South Normal University Life Science Institute through the United States MRC-102 laser confocal microscope and other testing equipment, strong nano 863 for crop comparison test, the experimental group of SOD, POD (peroxidase), CAT (catalase) respectively Which increased by 57%, 76.12% and 75.22% respectively compared with the control group, thus enhancing plant resilience and eventually increasing yield and quality. The nitrate reductase in the experimental group was 132.35% higher than that in the control group, indicating that the ability to absorb water and fertilizer and use nitrogen fertilizer was greatly improved, and the dosage of chemical fertilizer and pesticide could be saved by more than 30%. Jiangxi Academy of Agricultural Science and Vegetables Flower Research with strong nano-863 treatment cowpea seeds, on average