本文主要研究内容
作者霍朝晨(2019)在《寒区菌糠堆肥环境中微生物多样性及腐熟物在番茄上的应用效果》一文中研究指出:随着我国食用菌产业的蓬勃发展,食用菌年产量的不断上升,废弃菌糠处理已经成为一个严峻的环境问题。本研究以木耳菌糠为原料,对其进行堆肥处理,研究菌糠堆肥环境中的微生物多样性,并通过在番茄种植中设置菌糠腐熟物不同使用量处理,探讨该种菌糠腐熟物对番茄生长发育和果实品质的影响。堆肥原料为木耳菌糠,堆肥物料的起始体积为3.84 m3,在不同的时期取样并测定堆肥环境中的理化和生物指标。结果表明,在平均环境温度为6.8℃的情况下,堆体在大于50℃的高温期共维持了27 d,最高温度达到68.3℃,到49 d堆肥结束后,物料的pH为8.49,C/N为17.98,种子发芽指数为85.5%,可以判定物料已经完全腐熟,腐熟物的有机质含量为65.3%,全氮、全磷、全钾的含量分别为1.37%、0.65%、0.34%。通过高通量测序技术对木耳菌糠堆肥环境中微生物多样性变化研究表明,在门水平上,变形菌门(Proteobacteria)、拟杆菌门(Bacteroidetes)和放线菌门(Actinobacteria)为主要的细菌优势菌门。真菌的优势菌门为子囊菌门(Ascomycota)、担子菌门(Basidiomycota)和接合菌门(Zygomycota)。古菌仅检测出一个广古菌门(Euryarchaeota),其相对丰度仅为0.01%。在属水平上,在堆肥过程中,共有的优势细菌菌属有鞘脂杆菌属(Sphingobacterium)、黄杆菌属(Flavobacterium)和德沃斯氏菌属(Devosia)。真菌群落中,木耳属(Auricularia)、木霉属(Trichoderma)、粘束孢属(Graphium)和Coniochaeta菌属在堆肥初期相对丰度较大,而鬼伞属(Coprinus)、嗜热链球菌属(Mycothermus)、嗜热霉属(Thermomyces)在堆肥中后期占据优势。在古菌群落中,依然是仅检测到一个甲烷鬃菌属(Methanosaeta),其相对丰度仅为0.01%。在番茄种植中设置菌糠腐熟物不同使用量处理(CK:0 kg·hm-2、A:7500 kg·hm-2、B:15000 kg·hm-2、C:22500 kg·hm-2、D:30000 kg·hm-2)。结果表明,菌糠腐熟物使用量为15000 kg·hm-2时,对番茄果实中可溶性蛋白和维生素C含量的提升最大,分别提高了18.37%和13.52%。综合番茄植株的生产发育、产量和番茄果实品质来看,22500 kg·hm-2为菌糠腐熟物在番茄上的最优使用量,其能使番茄植株株高提高9.1%,茎粗提高11.28%,地上部分干重增加16.44%,产量增加13.91%,番茄果实中的可溶性糖含量增加30.56%,维生素C含量增加12.84%,番茄红素含量增加29.96%,但同时也使果实中硝酸盐的含量增加了16.77%。综上所述,在平均环境温度为6.8℃的情况下,木耳菌糠经过49 d的堆肥处理,物料达到完全腐熟状态。在木耳菌糠堆肥环境中,细菌群落的丰富度逐渐下降,多样性先下降后上升。真菌群落的丰富度先下降后趋于稳定,多样性逐步上升。古菌在菌糠堆肥环境中多样性和丰度极低。经过堆肥处理的木耳菌糠腐熟物,在使用量为15000 kg·hm-222500kg·hm-2时,能促进番茄植株的生长、提高番茄产量,并能提升番茄果实品质。
Abstract
sui zhao wo guo shi yong jun chan ye de peng bo fa zhan ,shi yong jun nian chan liang de bu duan shang sheng ,fei qi jun kang chu li yi jing cheng wei yi ge yan jun de huan jing wen ti 。ben yan jiu yi mu er jun kang wei yuan liao ,dui ji jin hang dui fei chu li ,yan jiu jun kang dui fei huan jing zhong de wei sheng wu duo yang xing ,bing tong guo zai fan jia chong zhi zhong she zhi jun kang fu shou wu bu tong shi yong liang chu li ,tan tao gai chong jun kang fu shou wu dui fan jia sheng chang fa yo he guo shi pin zhi de ying xiang 。dui fei yuan liao wei mu er jun kang ,dui fei wu liao de qi shi ti ji wei 3.84 m3,zai bu tong de shi ji qu yang bing ce ding dui fei huan jing zhong de li hua he sheng wu zhi biao 。jie guo biao ming ,zai ping jun huan jing wen du wei 6.8℃de qing kuang xia ,dui ti zai da yu 50℃de gao wen ji gong wei chi le 27 d,zui gao wen du da dao 68.3℃,dao 49 ddui fei jie shu hou ,wu liao de pHwei 8.49,C/Nwei 17.98,chong zi fa ya zhi shu wei 85.5%,ke yi pan ding wu liao yi jing wan quan fu shou ,fu shou wu de you ji zhi han liang wei 65.3%,quan dan 、quan lin 、quan jia de han liang fen bie wei 1.37%、0.65%、0.34%。tong guo gao tong liang ce xu ji shu dui mu er jun kang dui fei huan jing zhong wei sheng wu duo yang xing bian hua yan jiu biao ming ,zai men shui ping shang ,bian xing jun men (Proteobacteria)、ni gan jun men (Bacteroidetes)he fang xian jun men (Actinobacteria)wei zhu yao de xi jun you shi jun men 。zhen jun de you shi jun men wei zi nang jun men (Ascomycota)、dan zi jun men (Basidiomycota)he jie ge jun men (Zygomycota)。gu jun jin jian ce chu yi ge an gu jun men (Euryarchaeota),ji xiang dui feng du jin wei 0.01%。zai shu shui ping shang ,zai dui fei guo cheng zhong ,gong you de you shi xi jun jun shu you qiao zhi gan jun shu (Sphingobacterium)、huang gan jun shu (Flavobacterium)he de wo si shi jun shu (Devosia)。zhen jun qun la zhong ,mu er shu (Auricularia)、mu mei shu (Trichoderma)、nian shu bao shu (Graphium)he Coniochaetajun shu zai dui fei chu ji xiang dui feng du jiao da ,er gui san shu (Coprinus)、shi re lian qiu jun shu (Mycothermus)、shi re mei shu (Thermomyces)zai dui fei zhong hou ji zhan ju you shi 。zai gu jun qun la zhong ,yi ran shi jin jian ce dao yi ge jia wan zong jun shu (Methanosaeta),ji xiang dui feng du jin wei 0.01%。zai fan jia chong zhi zhong she zhi jun kang fu shou wu bu tong shi yong liang chu li (CK:0 kg·hm-2、A:7500 kg·hm-2、B:15000 kg·hm-2、C:22500 kg·hm-2、D:30000 kg·hm-2)。jie guo biao ming ,jun kang fu shou wu shi yong liang wei 15000 kg·hm-2shi ,dui fan jia guo shi zhong ke rong xing dan bai he wei sheng su Chan liang de di sheng zui da ,fen bie di gao le 18.37%he 13.52%。zeng ge fan jia zhi zhu de sheng chan fa yo 、chan liang he fan jia guo shi pin zhi lai kan ,22500 kg·hm-2wei jun kang fu shou wu zai fan jia shang de zui you shi yong liang ,ji neng shi fan jia zhi zhu zhu gao di gao 9.1%,jing cu di gao 11.28%,de shang bu fen gan chong zeng jia 16.44%,chan liang zeng jia 13.91%,fan jia guo shi zhong de ke rong xing tang han liang zeng jia 30.56%,wei sheng su Chan liang zeng jia 12.84%,fan jia gong su han liang zeng jia 29.96%,dan tong shi ye shi guo shi zhong xiao suan yan de han liang zeng jia le 16.77%。zeng shang suo shu ,zai ping jun huan jing wen du wei 6.8℃de qing kuang xia ,mu er jun kang jing guo 49 dde dui fei chu li ,wu liao da dao wan quan fu shou zhuang tai 。zai mu er jun kang dui fei huan jing zhong ,xi jun qun la de feng fu du zhu jian xia jiang ,duo yang xing xian xia jiang hou shang sheng 。zhen jun qun la de feng fu du xian xia jiang hou qu yu wen ding ,duo yang xing zhu bu shang sheng 。gu jun zai jun kang dui fei huan jing zhong duo yang xing he feng du ji di 。jing guo dui fei chu li de mu er jun kang fu shou wu ,zai shi yong liang wei 15000 kg·hm-222500kg·hm-2shi ,neng cu jin fan jia zhi zhu de sheng chang 、di gao fan jia chan liang ,bing neng di sheng fan jia guo shi pin zhi 。
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论文作者分别是来自黑龙江八一农垦大学的霍朝晨,发表于刊物黑龙江八一农垦大学2019-07-08论文,是一篇关于木耳菌糠论文,堆肥论文,腐熟度论文,微生物多样性论文,番茄论文,黑龙江八一农垦大学2019-07-08论文的文章。本文可供学术参考使用,各位学者可以免费参考阅读下载,文章观点不代表本站观点,资料来自黑龙江八一农垦大学2019-07-08论文网站,若本站收录的文献无意侵犯了您的著作版权,请联系我们删除。
标签:木耳菌糠论文; 堆肥论文; 腐熟度论文; 微生物多样性论文; 番茄论文; 黑龙江八一农垦大学2019-07-08论文;