霉菌毒素对猪危害及生物降解法研究
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作者: 刘娣
出版时间:2014年9月
出版社:中国农业科学技术出版社
- 中国农业科学技术出版社
- 9787511617873
- 57703
- 2014年9月
- 未分类
- 未分类
- S816.3
内容简介
刘娣编著的《霉菌毒素对猪危害及生物降解法研究》内容介绍:Research shows that 95% of mycotoxins in the presence of animal feed have been produced in the field, especially in wet or humid weather. Crops in harsh climatic conditions the occurrence of mycotoxins and its concentrations tend to be higher. Mycotoxins may occur during the storage of feedstuff or feed product. Currently, more than 200 mycotoxins are known in the presence of animal feed. In China, the most common and most harmful mycotoxins to hog industry are mainly aflatoxins, T-2, zearalenone, in addition to fumonisin and ochratoxin.
目录
Introduction
1.1 Mycotoxin research progress
1.1.1 Types of mycotoxins
1.1.2 The hazards of mycotoxins on livestock
1.2 The impact of mycotoxins on pigs
1.2.1 The impact of aflatoxins on pigs
1.2.2 The impact of zearalenone on pigs
1.2.3 The impact of DON on pigs
1.2.4 The impact of T—2 toxin on pigs
1.2.5 The impact of ochratoxin on pigs
1.2.6 The impact of furmnisin on pigs
1.3 Mycotoxin contamination in feed
1.3.1 The type of mycotox/n and the effect in feed
1.3.2 The limits of mycotoxins in the feed
1.3.3 Reasons for mycotoxin contamination in feed
1.4 Feed mycotoxin detoxification method
1.4.1 Physical detoxification
1.4.2 Chemical detoxification
1.4.3 Enzyme detoxificaiton
1.4.4 Biological detoxification
1.5 Purpose and significance and experiment plan of the research
1.5.1 Purose and significance of the research
1.5.2 Experirrent plan of the research
2 Material and Method
2.1 Material
2.1.1 SWains
2.1.2 The main chemical agent and biologic agent
2.1.3 Medium preparation
2.1. 4 The main equipment
2.1.5 The main experimental animal
2.2 The main experimental content and methods
2.2.1 Screening of pmbiotics fermentation conditions and quality evaluation
2.2.2 The inhibitory effect of pmbiotics on the growth of Aspergillus parasiticus and its influencing factors
2.2.3 The inhibitlon effects of Anti—mycotoxin plants on Aspergillus
2.2.4 Method and technology of probiotics on zyrnolysis anti—mycotoxin
2.2.5 Probiotics zyrnolite detection and feeding effects experiment
2.2.6 Probiotics zymolite effect on glycolysis of mycotoxin in finisher feed
2.2.7 Probiotics zymolite effect on glycolysis of mycotoxin in sow feed
2.2.8 Establish addition of pmbiotics zymalite in regular feed and feeding effects
2.3 Data processing
3 Results and analysis
3.1 Screening of probiotics fermentation conditions and determination of the
shelf life
3.1.1 Screening of probiotics fermentation conditions
3.1.2 The determination of the shelf fife of probiotics
3.2 Quality evaluation of probiotics
3.2.1 Determination of organic acids content in probiotics
3.2.2 Determination of amino acids in probiotics
3.2.3 Determination of inorganic composition of probiotics
3.2.4 Determination of heavy metals content of probiotics
3.3 The inhibitory effect of probiotics on the growth of Aspergillus parasiticus
and its influencing factors
3.3.1 The effects of probiotics on spores activity of Aspergillus parasiticus
3.3.2 Probiotics effects on activity of rasiticus spores at different pH
3.3.3 Probiotics effects on activity of rasiticus spores at different
density
3.3.4 The in,pact of pmbiotics on the toxin production of rasiticus
3.4 Anti-mycotoxin plants inhibition effect on Aspergillus parasiticus growth
3.4.1 Screening of anti-mycotoxin plant
3.4.2 Anti-mycotoxin plants inhibition on rasiticus growth
3.4.3 The animal experiment of anti-mycotoxin plants
3.5 Method and technology of probiotics zymolysis anti-mycotoxin plants
3.6 Probiotics zymolite detection and feeding effects experiment
3.6.1 The traits of probiotics zymolite
3.6.2 Probiotics effect on the performance of piglets and its side effect
3.7 Probiotics zymolite effect on glycolysis of mycotoxin in finisher feed
3.7.1 Mycotoxin detection in the basal diet
3.7.2 Pig growth status
3.7.3 Incidence detection
3.7.4 Common disease diagnosis of pigs and effects of Probiotics zymolite
adding feed on pigs
3.8 Probiotics zymolite effect on glycolysis of mycotoxin in sow feed
3.8.1 The impact of probiotics zymolite on sow reproductive performance
3.8.2 Sow antibody detection
3.9 Establish addition of probiotics zymolite in regular feed and feeding effects
experiment
3.9.1 Detection of mycotoxin in normal basal diet
3.9.2 Survey of piglets growth performance
3.9.3 Piglets antibody detection
4 Discussion
4.1 Selection and optimize of probiotic fermentation condition
4.1.1 The in,pact of temperature on the fermentation of probiotics
4.1.2 The impact of pH on the fermentation of probiotics
4.1.3 The impact of inoculation amount on the fermentation of probiotics
4.2 Mycotoxin contamination of pig feed
4.3 The impact of mycotoxins on pig immunity
4.4 Probiotics zymolite degradation of mycotoxins in pig feed
5 Conclusion
6 Innovation
References
APPENDIX Ⅰ Market Hog Vaccination Program
APPENDIX Ⅱ Sow Vaccination Program
Attachment
1.1 Mycotoxin research progress
1.1.1 Types of mycotoxins
1.1.2 The hazards of mycotoxins on livestock
1.2 The impact of mycotoxins on pigs
1.2.1 The impact of aflatoxins on pigs
1.2.2 The impact of zearalenone on pigs
1.2.3 The impact of DON on pigs
1.2.4 The impact of T—2 toxin on pigs
1.2.5 The impact of ochratoxin on pigs
1.2.6 The impact of furmnisin on pigs
1.3 Mycotoxin contamination in feed
1.3.1 The type of mycotox/n and the effect in feed
1.3.2 The limits of mycotoxins in the feed
1.3.3 Reasons for mycotoxin contamination in feed
1.4 Feed mycotoxin detoxification method
1.4.1 Physical detoxification
1.4.2 Chemical detoxification
1.4.3 Enzyme detoxificaiton
1.4.4 Biological detoxification
1.5 Purpose and significance and experiment plan of the research
1.5.1 Purose and significance of the research
1.5.2 Experirrent plan of the research
2 Material and Method
2.1 Material
2.1.1 SWains
2.1.2 The main chemical agent and biologic agent
2.1.3 Medium preparation
2.1. 4 The main equipment
2.1.5 The main experimental animal
2.2 The main experimental content and methods
2.2.1 Screening of pmbiotics fermentation conditions and quality evaluation
2.2.2 The inhibitory effect of pmbiotics on the growth of Aspergillus parasiticus and its influencing factors
2.2.3 The inhibitlon effects of Anti—mycotoxin plants on Aspergillus
2.2.4 Method and technology of probiotics on zyrnolysis anti—mycotoxin
2.2.5 Probiotics zyrnolite detection and feeding effects experiment
2.2.6 Probiotics zymolite effect on glycolysis of mycotoxin in finisher feed
2.2.7 Probiotics zymolite effect on glycolysis of mycotoxin in sow feed
2.2.8 Establish addition of pmbiotics zymalite in regular feed and feeding effects
2.3 Data processing
3 Results and analysis
3.1 Screening of probiotics fermentation conditions and determination of the
shelf life
3.1.1 Screening of probiotics fermentation conditions
3.1.2 The determination of the shelf fife of probiotics
3.2 Quality evaluation of probiotics
3.2.1 Determination of organic acids content in probiotics
3.2.2 Determination of amino acids in probiotics
3.2.3 Determination of inorganic composition of probiotics
3.2.4 Determination of heavy metals content of probiotics
3.3 The inhibitory effect of probiotics on the growth of Aspergillus parasiticus
and its influencing factors
3.3.1 The effects of probiotics on spores activity of Aspergillus parasiticus
3.3.2 Probiotics effects on activity of rasiticus spores at different pH
3.3.3 Probiotics effects on activity of rasiticus spores at different
density
3.3.4 The in,pact of pmbiotics on the toxin production of rasiticus
3.4 Anti-mycotoxin plants inhibition effect on Aspergillus parasiticus growth
3.4.1 Screening of anti-mycotoxin plant
3.4.2 Anti-mycotoxin plants inhibition on rasiticus growth
3.4.3 The animal experiment of anti-mycotoxin plants
3.5 Method and technology of probiotics zymolysis anti-mycotoxin plants
3.6 Probiotics zymolite detection and feeding effects experiment
3.6.1 The traits of probiotics zymolite
3.6.2 Probiotics effect on the performance of piglets and its side effect
3.7 Probiotics zymolite effect on glycolysis of mycotoxin in finisher feed
3.7.1 Mycotoxin detection in the basal diet
3.7.2 Pig growth status
3.7.3 Incidence detection
3.7.4 Common disease diagnosis of pigs and effects of Probiotics zymolite
adding feed on pigs
3.8 Probiotics zymolite effect on glycolysis of mycotoxin in sow feed
3.8.1 The impact of probiotics zymolite on sow reproductive performance
3.8.2 Sow antibody detection
3.9 Establish addition of probiotics zymolite in regular feed and feeding effects
experiment
3.9.1 Detection of mycotoxin in normal basal diet
3.9.2 Survey of piglets growth performance
3.9.3 Piglets antibody detection
4 Discussion
4.1 Selection and optimize of probiotic fermentation condition
4.1.1 The in,pact of temperature on the fermentation of probiotics
4.1.2 The impact of pH on the fermentation of probiotics
4.1.3 The impact of inoculation amount on the fermentation of probiotics
4.2 Mycotoxin contamination of pig feed
4.3 The impact of mycotoxins on pig immunity
4.4 Probiotics zymolite degradation of mycotoxins in pig feed
5 Conclusion
6 Innovation
References
APPENDIX Ⅰ Market Hog Vaccination Program
APPENDIX Ⅱ Sow Vaccination Program
Attachment
