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草酸青霉菌产酶条件优化及其秸秆腐解能力

耿丽平陆秀君赵全利高宁大刘文菊

农业工程学报Issue(3)：170-179,10.

农业工程学报Issue(3)：170-179,10.DOI:10.3969/j.issn.1002-6819.2014.03.023

草酸青霉菌产酶条件优化及其秸秆腐解能力

Optimization of enzyme-production conditions ofPenicillium oxalicum and its ability for decomposition of stalks

耿丽平 ¹陆秀君 ²赵全利 ¹高宁大 ¹刘文菊¹

作者信息

1. 河北农业大学资源与环境科学学院，保定 071001
2. 河北农业大学植物保护学院，保定 071001
折叠

摘要

Abstract

The decomposition of corn stalks returning to soil is very difficult. It has been the hot topic as to how to accelerate the decomposition of corn stalks in soil around the world. Isolation of cellulose-decomposing bacteria or fungiwas conducted using the method of cellulose-Congo red stain in soil with straw returning which was collected from wheat-corn rotation farmland in Hebei province. The ITS genetic sequence of the strain determined by PCR was of 99% homology with that ofPenicillium oxalicum when compared with the known sequence in the NCBI database using pairwise BLAST. The isolated strain was identified asPenicillium oxalicum on the basis of its morphological characteristics and ITS genetic sequence analysis and preserved in the China General Microbiological Culture Collection Center (CGMCC) with the preserved number of CGMCC NO.4842. The ability to decompose corn stalks and the conditions to produce enzymes by this strain were studied further. The results showed that the enzymatic activities of CMC and FPA were 672.8, 282.9 and 774.6, 618.3U when the strain was growing in the sodium carboxymethyl cellulose (CMC-Na) medium and corn stalks in the medium at 30℃ for 72h, respectively. The total activity of cellulose on a corn stalks medium reached to 376.1U. Moreover, the optimum conditions for enzyme production were 3% beef extract peptone as the nitrogen source, 5% of inoculated level , 28-35℃, pH =4-7 and cultured for 48-96 h. The best combination of pH value, temperature, solid-liquid ratio, and incubation time was pH value=6.5, 30℃, solid-liquid ratio at 1:10, and incubation for 48h. When the strain was cultured with powder of corn stalks in a growth medium for 10 days, 87.3% of the corn stalks were decomposed and 1.90 times higher than that in the control. When the strain was incubated in soil with corn stalks for 30 days, the decomposition rate was 83.5% and 1.62 times higher than that in the control. Finally, the wheat pot experiment was carried out to investigate the effect of this strain on corn stalks decomposition in soil when the plant was grown for 50 days. The result showed that the straw decomposition rate was 70.8% and 15.1% higher than that in the control. In conclusion, the strain ofPenicillium oxalicum isolated from the soil with straw returning could decompose the corn stalks efficiently.

关键词

秸秆/酶/纤维素/土壤/腐解/草酸青霉菌

Key words

straw/enzymes/cellulose/soils/decomposition/Penicillium oxalicum

分类

农业科技

引用本文复制引用

耿丽平,陆秀君,赵全利,高宁大,刘文菊..草酸青霉菌产酶条件优化及其秸秆腐解能力[J].农业工程学报,2014,(3):170-179,10.

基金项目

河北省高等学校创新团队领军人才培育计划（LJRC016）；河北省世纪优秀人才支持计划（CPRC028）。（）

农业工程学报

OA北大核心CSCDCSTPCD

ISSN：1002-6819

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