试验目的:为进一步筛选看得见微生物肥料合适用量配合正常施肥合适用量施用效果,为推广看得见微生物肥提供科学依据。2012年在特克斯县阔克苏乡胡萝卜上做了看得见微生物肥料不同用量配合正常施肥不同用量的效果试验,试验方法:试验设四个处理,一个对照。试验结果:处理一到处理四,施用不同剂量看得见微生物肥,减少不同剂量常规施肥,与对照相比,均有增产效果,但以处理二亩用10kg看得见微生物肥,减少正常用肥量的50%(配合二铵7.5kg,过磷酸钙2.5kg):增产效果最为明显,亩增产1056kg、增产率为25.73%、增收563.1元;而且肥料投入最少产出率最高,肥料投入与产出比为1.1:5.0,产出比投入增加3.9元。虽然株高在各处理排列第二,但株高不是考察的主要对象,试验结论,处理二,在生产根茎作物上,尤其是水源比较稀缺的地块可以大面积推广应用。 The purpose of the experiment: In order to further screening the appropriate amount of microbial fertilizer can be seen with the appropriate amount of normal fertilization application effect, to promote the visible microbial fertilizer to provide a scientific basis. In 2012, a test was made on carrots in Kukesu Township, Turks County to see the effects of different amounts of microbial fertilizer on the dosage of normal fertilizers. The test method includes four treatments and one control. Test results: Treatment 1 to treatment 4, the application of different doses of visible microbial fertilizer to reduce the conventional fertilization at different doses, compared with the control, have increased yield, but to handle 2 acres with 10kg visible microbial fertilizer to reduce the normal use Fertilizer 50% (with diammonium 7.5kg, superphosphate 2.5kg): the most obvious yield increase, yield increase of 1056kg mu, 25.73% yield increase, an increase of 563.1 yuan; and the lowest input of fertilizers, the highest yield, fertilizer input and Output ratio of 1.1: 5.0, output increased by 3.9 yuan investment. Although the plant height ranks second in each treatment, the plant height is not the main object of investigation. The conclusion of the experiment, treatment II, can be widely applied in the production of rhizome crops, especially the relatively scarce water sources.