山东建筑大学学报
山東建築大學學報
산동건축대학학보
JOURNAL OF SHANDONG JIANZHU UNIVERSITY
2014年
3期
235-239
,共5页
解磷微生物%磷矿粉%透明圈%有效磷%筛选模型
解燐微生物%燐礦粉%透明圈%有效燐%篩選模型
해린미생물%린광분%투명권%유효린%사선모형
P-dissolving microbes%rock phosphate powder%transparent circle%available phosphorus%screening model
磷是植物体内有机化合物的主要成分,为生物固氮所必需,土壤中大部分磷以难溶态存在,不能被植物直接吸收利用,解磷微生物可以促进土壤难溶磷向有效磷的转化。基于目前耕地有效磷缺乏的现状,通过对解磷微生物初筛、复筛培养基的研究,探索了解磷微生物的筛选模型以及各地解磷微生物的多样性,对不同类型土壤中分离出的2000多株解磷微生物的溶磷效果进行了研究。结果表明:菜园土中有机质含量高,解磷微生物最多,从全国各地土样及种子表皮中分离出芽孢杆菌P17菌株、短杆菌P10菌株和红酵母Y3菌株等解磷微生物;不同地域、同种地区不同类型土壤中溶解难溶性无机磷和有机磷微生物的种类和数量存在显著差异;无机磷平板初筛模型可以有效分离样品中的解磷微生物,溶磷效果需结合复筛模型进行确定。
燐是植物體內有機化閤物的主要成分,為生物固氮所必需,土壤中大部分燐以難溶態存在,不能被植物直接吸收利用,解燐微生物可以促進土壤難溶燐嚮有效燐的轉化。基于目前耕地有效燐缺乏的現狀,通過對解燐微生物初篩、複篩培養基的研究,探索瞭解燐微生物的篩選模型以及各地解燐微生物的多樣性,對不同類型土壤中分離齣的2000多株解燐微生物的溶燐效果進行瞭研究。結果錶明:菜園土中有機質含量高,解燐微生物最多,從全國各地土樣及種子錶皮中分離齣芽孢桿菌P17菌株、短桿菌P10菌株和紅酵母Y3菌株等解燐微生物;不同地域、同種地區不同類型土壤中溶解難溶性無機燐和有機燐微生物的種類和數量存在顯著差異;無機燐平闆初篩模型可以有效分離樣品中的解燐微生物,溶燐效果需結閤複篩模型進行確定。
린시식물체내유궤화합물적주요성분,위생물고담소필수,토양중대부분린이난용태존재,불능피식물직접흡수이용,해린미생물가이촉진토양난용린향유효린적전화。기우목전경지유효린결핍적현상,통과대해린미생물초사、복사배양기적연구,탐색료해린미생물적사선모형이급각지해린미생물적다양성,대불동류형토양중분리출적2000다주해린미생물적용린효과진행료연구。결과표명:채완토중유궤질함량고,해린미생물최다,종전국각지토양급충자표피중분리출아포간균P17균주、단간균P10균주화홍효모Y3균주등해린미생물;불동지역、동충지구불동류형토양중용해난용성무궤린화유궤린미생물적충류화수량존재현저차이;무궤린평판초사모형가이유효분리양품중적해린미생물,용린효과수결합복사모형진행학정。
Phosphorus is the main component of organic compounds in plant and necessary for the biological nitrogen fixation.Most of the phosphorus is insoluble in soil,which cannot be absorbed by plants directly.P-dissolving microbes can promote the transformation of insoluble phosphorus to available phosphorus in soil.The study was centered on the current situation of effective phosphorus deficiency in cultivated land.Diversity of P-dissolving microbes was explored by construction of screening model during the study of initial screening medium and re-screening culture medium.More than 2000 strains of P-dissolving microbes were isolated from different soil samples by solid plate method .Results are shown as follows.P-dissolving microbes are most in vegetable garden soil because of its high content of organic matter.Quantity and kinds of P-dissolving microbes are different in soil from different area.Bacillus P17,Brevibacterium P10,Rhodotorula Y3 are isolated and identified.P-dissolving microbes could be isolated with the screening model by solid plate method,but P-dissolving effect is still needed to be determined combined with liquid screening model.
