紫茎泽兰野外微生物堆肥及毒性评价

doi:10.11686/cyxb2016308

摘要/Abstract

摘要： 紫茎泽兰是我国危害最严重的外侵植物,具有动物、植物和微生物毒性,研究紫茎泽兰野外就地堆肥技术,评估腐熟效果,可为有效防除与资源化利用提供科学依据。在野外自然条件下,通过接种恶臭假单胞菌(Pseudomonas putita sp.)和热解纤维梭菌(Clostridium thermocellum sp.),同时添加尿素和硫酸钙以及覆盖农用薄膜研究紫茎泽兰生物堆肥效果,并评价紫茎泽兰发酵产物生物毒性。接种菌剂后,堆肥高温期(50.0 ℃~64.5 ℃)持续时间达22 d,石油醚提取物从3.15 g/kg降低至0.37 g/kg,80 d可充分腐熟紫茎泽兰。腐熟物料的pH、有机质、养分和重金属含量符合NY/525-2011国家标准,腐殖酸含量为8.42%。动物毒性试验表明,浸提液对小鼠体重增长无显著影响,心、肝、肾、肺等组织器官未见病理变化。用生物堆肥浸提液浸种,促进小麦种子发芽率指数、活力指数和苗高,分别比无离子水浸种提高了8.65%、28.79%和23.69%;在添加紫茎泽兰生物堆肥的土壤中,微生物碳氮和脱氢酶活性比不施肥和单施化肥显著提高。生物堆肥可野外就地腐熟紫茎泽兰,降解有毒物质,提供有机肥源,实现紫茎泽兰的经济、有效防除与资源化利用。

Abstract: Ageratina adenophora, the most harmful invasive plant in China, is toxic to animals, plants, and microbes. This paper describes work to develop a technique for composting A. adenophora in situ and evaluation of the decomposition effect to provide information on the effective elimination and resource utilization of this harmful plant. This study investigated the composting of Ageratina adenophora using incubation with Pseudomonas putita, Clostridium thermocellum, addition of urea and CaSO₄, and covering the stack with plastic film. Biological toxicity was evaluated at the end of bio-composting. The high temperature period (50.0-64.5 ℃) lasted for 22 days and detection of toxin in petroleum ether extracts decreased from 3.15 g/kg to 0.37 g/kg. After 80 days of bio-composting, and A. adenophora plant material was well decomposed. The compost contained 8.42% humic acids. The pH, organic matter and heavy metal concentrations of the compost matched the NY/525-2011 state standard. No effects on growth in wheat were detected following gavage of A. adenophora compost extract (ACE) with a large amount of water. Similarly, no pathologic changes in the main organs (heart, liver, kidney and lungs, mice) were detected either. Wheat seed germination, seedling vigor index and seedling height were increased by 8.65%, 28.79% and 23.69%, respectively compared with control (water soaked) seeds, when seeds were soaked seeds with ACE. In an incubation experiment, addition of bio-compost into soil increased microbial biomass carbon and nitrogen, and dehydrogenase activity compared with with untreated soil used as a control or soil which had received a chemical fertilizer treatment. This indicates that ACE promoted microbial growth, reproduction, and activity of soil. In summary, bio-composting successfully decomposed and detoxified A. adenophora herbage, and was able to produce organic fertilizer for agriculture, thereby effectively and economically eliminating and utilizing this invasive plant.

杨红军, 杜如万, 吴叶宽, 王剑, 王勇, 赵建, 梁永江, 张长华, 袁玲. 紫茎泽兰野外微生物堆肥及毒性评价[J]. 草业学报, 2017, 26(6): 131-138.

YANG Hong-Jun, DU Ru-Wan, WU Ye-Kuan, WAN Jian, WANG Yong, ZHAO Jiang, LIANG Yong-Jiang, ZHANG Chang-Hua, YUAN Ling. Microbial composting and detoxification of Ageratina adenophora[J]. Acta Prataculturae Sinica, 2017, 26(6): 131-138.

参考文献

[1] Zhou Q W, Yu L F, Wang S M, et al . Harm, comprehensive control and utilization of invasion plant E. adenophorum . Progress in Veterinary Medicine, 2014, 35(5): 108-113.
周启武, 于龙凤, 王绍梅, 等. 入侵植物紫茎泽兰的危害及综合防控与利用. 动物医学进展, 2014, 35(5): 108-113.
[2] Zhao G J, Ma Y P. Studies on the distribution and harm of E. adenophorum in Yunnan. Journal of Weed Science, 1989, 3(2): 37-40.
赵国晶, 马云萍. 云南省紫茎泽兰的分布与危害的调查研究. 杂草学报, 1989, 3(2): 37-40.
[3] Wang R, Wang Y Z. Invasion dynamics and potential spread of invasive alien plant species, Ageratina adenophora , in China. Diversity and Distributions, 2006, 12(4): 397-408.
[4] Lu Z J, Ma K P. Spread of the exotic crofton weed ( Eupatorium adenophorum ) across southwest China along roads and streams. Weed Science, 2006, 54(6): 1068-1072.
[5] Zhou S, Tang C J, Zhang X Y. The damage situation and control countermeasures for Eupatorium adenophorum in Sichuan Province. Pratacultural Science, 2004, 21(1): 24-26.
周俗, 唐川江, 张新跃. 四川省紫茎泽兰危害状况与治理对策. 草业科学, 2004, 21(1): 24-26.
[6] Luo Y, Liu Z, Gao L, et al . Quality evaluation of the Eupatorium adenophorum sprengel’s as organic manure. Chinese Agricultural Science Bulletin, 2009, 25(7): 179-182.
罗瑛, 刘壮, 高玲, 等. 紫茎泽兰的有机肥品质评价. 中国农学通报, 2009, 25(7): 179-182.
[7] Palanivell P, Susilawati K, Ahmed O H, et al . Effects of crude humin and compost produced from selected waste on Zea mays growth, nutrient uptake and nutrient use efficiency. African Journal of Biotechnology, 2013, 12(13): 1500-1507.
[8] Zhang M, Liu W L, Gao X, et al . Study on chemical constituents from Eupatorium adenophorum Spreng. Journal Tropical and Subtropical Botany, 2015, 23(6): 697-702.
张梅, 刘伟丽, 高峡, 等. 紫茎泽兰的化学成分研究. 热带亚热带植物学报, 2015, 23(6): 697-702.
[9] Hou T P, Liu S G. A review on poisonous plant: Eupatorium adenophorum Spreng. Grassland and Turf, 1999, 84(4): 6-8.
侯太平, 刘世贵. 有毒植物紫茎泽兰研究进展. 国外畜牧学: 草原与牧草, 1999, 84(4): 6-8.
[10] Jiao Y J, Sang Y J, Yang L, et al . Effects of fresh and composted Ageratina adenophora on physiology of three solanaceae vegetables and yield and quality of pepper. Scientia Acricultura Sinica, 2016, 49(5): 874-884.
焦玉洁, 桑宇杰, 杨磊, 等. 新鲜和腐熟紫茎泽兰对三种茄科蔬菜生理和辣椒产量品质的影响. 中国农业科学, 2016, 49(5): 874-884.
[11] Zhu X Z, Li Q, Li Y P, et al . Eupatorium adenophorum invasion alters soil bacterial community and diversity. Biodiversity Science, 2015, 23(5): 665-672.
朱珣之, 李强, 李扬苹, 等. 紫茎泽兰入侵对土壤细菌的群落组成和多样性的影响. 生物多样性, 2015, 23(5): 665-672.
[12] Li Y M, Li Z Y, Ye M Y. The chemical compositions and their bioactivities in the different parts of Eupatorium adenophorum Spreng. Journal of Yunnan Agricultural University, 2008, 23(1): 42-46.
李永明, 李正跃, 叶敏一. 紫茎泽兰不同部位的化学成分及其生物活性. 云南农业大学学报, 2008, 23(1): 42-46.
[13] Zhuang Q M, Hou J, Zhou D X, et al . Chemical component allelopathy and bioactivity in Eupatorium adenophorum Spreng. Beijing Normal University: Nature Science, 2008, 44(6): 610-613.
庄启明, 侯婧, 周东新, 等. 紫茎泽兰化学成分化感作用及生物活性. 北京师范大学学报: 自然科学版, 2008, 44(6): 610-613.
[14] Zhao X, Zheng G W, Niu X M, et al . Terpenes from Eupatorium adenophorum and their allelopathic effects on Arabidopsis seeds germination. Journal Agriculture Food Chemisty, 2009, 57(2): 478-482.
[15] Ren H, Zhang M, Zhou Z Y, et al . Phenolic derivatives and steroids from Eupatorium adenophorum Spreng. Journal Tropical and Subtropical Botany, 2014, 22(4): 413-418.
任慧, 张梅, 周忠玉, 等. 紫茎泽兰中的酚酸衍生物和甾类化学成分. 热带亚热带植物学报, 2014, 22(4): 413-418.
[16] Li C P, Chang Q, Wang C, et al . Composting of aerial parts of crofton weed ( Eupatorium adenophorum Spreng), the top invasive plant in southwest. Compost Science & Utilization, 2014, 22(3): 132-137.
[17] Liu X L, Hu J C, Bai J, et al . Study on the detoxification process of Eupatorium adenophorum Spreng and its rotten fertilizer application in Allium schoenoprasum L. Chinese Agricultural Science Bulletin, 2014, 30(20): 149-153.
刘兴林, 胡金朝, 白洁, 等. 紫茎泽兰脱毒工艺及其腐熟肥料的应用. 中国农学通报, 2014, 30(20): 149-153.
[18] Niu J L, Gao J X, Li Y M, et al . Evaluation of the role of microorganisms in composting. Chinese Journal of Eco-Agriculture, 2007, 15(6): 185-189.
牛俊玲, 高军侠, 李彦明, 等. 堆肥过程中的微生物研究进展. 中国生态农业学报, 2007, 15(6): 185-189.
[19] Lao D K, Zhang L L, Li Y B, et al . Effect of different inoculation amounts of microbial straw decomposition agents on vegetable byproducts composting. Chinese Journal of Environmental Engineering, 2015, 9(6): 2979-2985.
劳德坤, 张陇利, 李永斌, 等. 不同接种量的微生物秸秆腐熟剂对蔬菜副产物堆肥效果的影响. 环境工程学报, 2015, 9(6): 2979-2985.
[20] Luísa C, Mário R, Lídia D. Variation in microbial population during composting of agro-industrial waste. Applied Microbiology and Biotechnology, 2013, 97(9): 4179-4186.
[21] Noor M, Md Z A, Nassereldeen A K. Optimization of effective composting process of oil palm industrial waste by lignocellulolytic fungi. Journal of Material Cycles and Waste Management, 2015, 17(1): 91-98.
[22] Maheshwari D K. Composting for Sustainable Agriculture[M]. Cham: Springer International Publishing Press, 2014.
[23] Eghball B, Lesoing G W. Viability of seeds following manure windrow composting. Compost Science & Utilization, 2008, 8(1): 46-53.
[24] Xie Q X, Zhang J M, Zhang W. Research progress on invasive species Eupatorium adenophorum sprengel. Animal Husbandry and Feed Science, 2013, 34(9): 85-89.
谢全喜, 张建梅, 张文. 入侵物种紫茎泽兰研究进展. 畜牧与饲料科学, 2013, 34(9): 85-89.
[25] Hua J S. Investigation of the distribution and harm of E. adenophorum in Liangshan Prefecture. Modern Agricultural Science and Technology, 2012, (22): 139-140.
华劲松. 凉山州紫茎泽兰的分布及危害情况调查. 现代农业科技, 2012, (22): 139-140.
[26] Wang X R. Testing Methods and Techniques in Toxicology[M]. Beijing: People’s Health Publishing Press, 2003.
王心如. 毒理学实验方法与技术[M]. 北京: 人民卫生出版社, 2003.
[27] Zeng R S. Review on bioassay methods for allelopathy research. Chinese Journal of Applied Ecology, 1999, 10(1): 123-126.
曾任森. 化感作用研究中的生物测定方法综述. 应用生态学报, 1999, 10(1): 123-126.
[28] Yang J H, Wang C L, Dai H L. Soil Chemical Analysis and Environmental Monitoring[M]. Beijing: China Land Press, 2008.
杨剑虹, 王成林, 代亨林. 土壤农化分析与环境监测[M]. 北京: 中国大地出版社, 2008.
[29] Chang Q X, Wei Y S, Liu J X. Effect on animal manure composting with different aeration control modes. Acta Scientiae Circumstantiae, 2006, 26(4): 595-600.
常勤学, 魏源送, 刘俊新. 通风控制方式对动物粪便堆肥过程的影响. 环境科学学报, 2006, 26(4): 595-600.
[30] Yao W Q. Biological approach and control of main factor during the process of composting. Sichuan Environment, 2008, 27(5): 93-98.
姚伟卿. 堆肥过程的生物学途径及主要影响因素的控制. 四川环境, 2008, 27(5): 93-98.
[31] Zhang J F, Hou H Y, Fu Z J, et al . The study on functional verification of the speed corruption completing agents in straw compost and the microbial flora dynamic in the Northeast China. Chinese Agricultural Science Bulletin, 2013, 29(26): 112-117.
张建峰, 侯红燕, 付志金, 等. 速腐菌剂在东北地区秸秆堆肥中的功能验证及微生物菌群动态研究. 中国农学通报, 2013, 29(26): 112-117.
[32] Zhang X, Xi B D, Zhao Y, et al . Characteristics of organic nitrogen mineralization in organic waste compost-amended soil. Chinese Journal of Environmental Science, 2013, 34(6): 2448-2455.
张旭, 席北斗, 赵越, 等. 有机废弃物堆肥培肥土壤的氮矿化特性研究. 环境科学, 2013, 34(6): 2448-2455.
[33] Dang Q L, Li M X, Xi B D, et al . Effects of multi-stage strengthening inoculation on bacterial community diversity during composting. Chinese Journal of Environmental Science, 2011, 32(9): 2689-2695.
党秋玲, 李鸣晓, 席北斗, 等. 堆肥过程多阶段强化接种对细菌群落多样性的影响. 环境科学, 2011, 32(9): 2689-2695.
[34] Diaz L F, de Bertoldi M, Bidlingmaier W. Compost Science and Technology[M]. Amsterdam: Elsevier, 2007.
[35] O’Sullivan B M. Investigation into crofton weed ( Eupatorium adenophorum ) toxicity in horse. Australian Veterinary Journal, 1985, 62(1): 30-32.
[36] Baruah N C, Sarma J C, Sarma S, et al . Seed germination and growth inhibitory cadinenes from Eupatorium adenophorum Spreng. Journal of Chemical Ecology, 1994, 20(8): 1885-1892.
[37] Zheng L, Feng Y L. Allelopathic effects of Eupatorium adenophorum Spreng. on seed germination and seedling growth in ten herbaceous species. Acta Ecologica Sinica, 2005, 25(10): 2782-2787.
郑丽, 冯玉龙. 紫茎泽兰叶片化感作用对10种草本植物种子萌发和幼苗生长的影响. 生态学报, 2005, 25(10): 2782-2787.
[38] Wang Y Q, Chen D M, Yuan L. Allelopathic effect of extracts from the fibrous roots of Coptis chinensis on Lactuca compositae , Vigna radiate and Brassica rapa pekinensis. Acta Prataculturae Sinica, 2015, 24(6): 142-149.
王亚麒, 陈丹梅, 袁玲. 黄连须根浸提液对莴苣、绿豆和白菜的化感效应. 草业学报, 2015, 24(6): 142-149.
[39] Moorhead D L, Rinkes Z L, Sinsabaugh R L, et al . Dynamic relationships between microbial biomass, respiration, inorganic nutrients and enzyme activities: informing enzyme-based decomposition models. Frontiers in Microbiology, 2013, 4: 223-235.