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不同光照条件下蚯蚓避光性运动与蚓粪机械化分离参数量化
引用本文:林嘉聪,刘志刚,邢行,罗帅,袁巧霞,曹红亮. 不同光照条件下蚯蚓避光性运动与蚓粪机械化分离参数量化[J]. 农业工程学报, 2018, 34(2): 235-241
作者姓名:林嘉聪  刘志刚  邢行  罗帅  袁巧霞  曹红亮
作者单位:1. 华中农业大学工学院,武汉 430070; 3. 农业部长江中下游农业装备重点实验室,武汉 430070;,2. 江苏大学环境与安全工程学院,镇江 212013;,1. 华中农业大学工学院,武汉 430070; 3. 农业部长江中下游农业装备重点实验室,武汉 430070;,1. 华中农业大学工学院,武汉 430070; 3. 农业部长江中下游农业装备重点实验室,武汉 430070;,1. 华中农业大学工学院,武汉 430070; 3. 农业部长江中下游农业装备重点实验室,武汉 430070;,1. 华中农业大学工学院,武汉 430070; 3. 农业部长江中下游农业装备重点实验室,武汉 430070;
基金项目:公益性行业(农业)专项(201303091);湖北省自然科学基金(2017CFB159);华中农业大学自主科技创新项目(2662016PY108、2015PY077)资助。
摘    要:蚯蚓和蚯蚓粪的机械化分离是目前蚯蚓规模化养殖业亟需解决的瓶颈问题之一,针对目前最常用的蚯蚓光分离工艺方法在实际养殖分离中全凭人为经验、效率低、无机械化参数等问题,探究了不同光质条件:白光、黄光、绿光、蓝光、红光、白炽灯光在10~270 lx不同光照强度下,对照实际自然环境场景:室内光照、室外阴处光照和太阳光直射光照条件下的蚯蚓避光应激行为,并结合光线辐射在蚯蚓粪多孔介质内的衰减规律分析了蚯蚓堆肥物料表层一定之内厚度无蚯蚓的原因。结果表明:光照强度10 lx时,蚯蚓不受光照影响;光照强度10~30 lx时,蚯蚓的避光反应显现;光照强度30~210 lx时,蚯蚓的避光应激程度随着光照强度增加缓慢加强,消失时间不断缩短;光照强度210 lx时,光照引起的蚯蚓的避光反应程度趋于最大。白光和太阳光引起蚯蚓避光反应最显著,蚯蚓蠕动消失时间分别为6.5和5 min,蚯蚓消失5 min后堆料表层无蚯蚓层厚度在10~15 mm之间。蚯蚓对红色光应激程度极低,平均消失时间20 min;除了红光,随着光照强度增加,蚯蚓在堆料表面的消失时间呈现对数曲线趋势下降。该研究量化分析了蚯蚓对光质、光照强度的应激响应时间,以期为蚯蚓养殖分离,机械自动化逐层、定时、定量、定光强分离表层蚯蚓粪提供工艺参数。

关 键 词:光照;粪;蚯蚓堆肥;量化分析;避光运动;无蚓层厚度
收稿时间:2017-09-07
修稿时间:2018-01-01

Earthworm photophobic movement under different light conditions and quantitative analysis of mechanical separating vermicompost parameters
Lin Jiacong,Liu Zhigang,Xing Hang,Luo Shuai,Yuan Qiaoxia and Cao Hongliang. Earthworm photophobic movement under different light conditions and quantitative analysis of mechanical separating vermicompost parameters[J]. Transactions of the Chinese Society of Agricultural Engineering, 2018, 34(2): 235-241
Authors:Lin Jiacong  Liu Zhigang  Xing Hang  Luo Shuai  Yuan Qiaoxia  Cao Hongliang
Affiliation:1. College of Engineering, Huazhong Agricultural University, Wuhan 430070, China; 3.Key Laboratory of Agricultural Equipment in Mid-lower Yangtze River, Ministry of Agriculture, Wuhan 430070, China;,2. School of the Environment and Safety Engineering, Jiangsu University, Zhenjiang 212013, China;,1. College of Engineering, Huazhong Agricultural University, Wuhan 430070, China; 3.Key Laboratory of Agricultural Equipment in Mid-lower Yangtze River, Ministry of Agriculture, Wuhan 430070, China;,1. College of Engineering, Huazhong Agricultural University, Wuhan 430070, China; 3.Key Laboratory of Agricultural Equipment in Mid-lower Yangtze River, Ministry of Agriculture, Wuhan 430070, China;,1. College of Engineering, Huazhong Agricultural University, Wuhan 430070, China; 3.Key Laboratory of Agricultural Equipment in Mid-lower Yangtze River, Ministry of Agriculture, Wuhan 430070, China; and 1. College of Engineering, Huazhong Agricultural University, Wuhan 430070, China; 3.Key Laboratory of Agricultural Equipment in Mid-lower Yangtze River, Ministry of Agriculture, Wuhan 430070, China;
Abstract:Abstract: The vermicomposting has shown to be efficient in processing the organic solid waste like crop straw, dump of poultry and municipal sludge. It is of necessity to separate the earthworm from vermicompost before resulting product is marketed and further developed. But the problems of labor and time intensity, which induce poor earthworm separating efficiency, are urgent to be solved in the stage of vermicomposting. The light separation method has been widely recognized and applied to separate vermicompost. After the earthworm disappeared in the vermicompost pile under the simulated light, there is fixed thickness of vermicompost near the pile surface that can be scraped out. In this way the pure vermicompost can be collected without hurting earthworm. Nowadays, for lacking mechanization and relevant quantitative parameters, the task of earthworm separation is still done by manual labor, which had a higher cost. In this study, the mature earthworms were evenly distributed on the surface of fixed mirco-vermicompost pile. Different monochromatic lights including white light, yellow light, green light, red light, and incandescent light, and the light intensity from 10 to 270 lx, were applied to investigate the earthworm photophobic movement. In order to compare the effect between natural light environment and artificial light, the controlled experiments of indoor light, outdoor light, and direct sunlight were conducted in real environment. The time all earthworms disappeared from the surface of mirco-vermicompost pile was measured and the layer without earthworm was collected. Typically, the study discussed the reason of forming the layer without earthworm through analyzing the pattern of illumination attenuation in the vermicompost. The result indicated that no matter what light qualities were, when the light intensity was less than 10 lx, the earthworm showed almost no reaction; when the light intensity changed from 10 to 30 lx, the earthworm showed weak photophobic reaction; when the light intensity changed from 30 to 210 lx, the extent of earthworm photophobic reaction got increased with the increase of light strength; when the light intensity was over 210 lx, the extent of earthworm photophobic reaction reached the maximum. The white light and direct sunlight had the most significant influence compared with the other light environments, and the disappearing time was 6.5 and 5 min, respectively. After disappearing for 5 min the thickness of the layer without earthworm reached 15 mm, showing no significant difference with other time gaps (10, 15 and 20 min) after disappearing. The red light exerted the weakest impact on earthworm, and the disappearing time was over 20 min in the experiment replicates under different light intensities. With the light intensity increasing, the disappearing time of earthworm dropped logarithmically. When it came to the application for the white light and sunlight with light intensity over 210 lx, 10-15 mm layer without earthworm could be formed. The study calculated the earthworm reaction and responding time under different illumination conditions, which can offer reference for earthworm cultivation. The results of disappearing time, light environment and the thickness of layer without earthworm can be treated as process parameters to provide reference for designing the separating machine.
Keywords:light   manures   vermicomposting   quantitative analysis   photophobic movement   none earthworm thickness
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