不同冬季作物对稻田蚯蚓及蚯蚓粪产量的影响

Effects of winter crops on the earthworm yield and earthworm cast in paddy fields

  • 摘要: 基于大田调查, 结合2017—2020年的降雨量及积温数据, 研究了稻田种植不同冬季作物(T1, 冬闲; T2, 冬种紫云英; T3, 冬种油菜)对威廉环毛蚓(Pheretima guillelmi)产量及蚯蚓粪产量的影响, 以期为稻田蚯蚓增效提供理论及技术支撑。结果表明: 蚯蚓产量、蚯蚓粪产量及冬季作物产量在不同年度间的波动幅度均较大, 不同年度间的蚯蚓产量变异系数(CV)与冬季作物产量CV值极显著(P<0.01)正相关; 2018—2019年10—12月的持续降雨及12—2月的低温导致冬季作物及蚯蚓产量大幅下降。蚯蚓产量、蚯蚓粪产量与土壤有机质含量显著正相关(P<0.05), 与冬季作物产量均呈极显著正相关(P<0.01)。冬闲、冬种紫云英和冬种油菜的蚯蚓密度分别为8.4~12.8条·m−2、11.2~30.8条·m−2和20.4~49.1条·m−2, 蚯蚓平均密度分别为10.8条·m−2、20.7条·m−2和36.3条·m−2; 蚯蚓产量分别为290~428 kg·hm−2、368~1054 kg·hm−2和763~1845 kg·hm−2, 蚯蚓平均产量分别为373 kg·hm−2、695 kg·hm−2和1364 kg·hm−2; 蚯蚓粪产量分别为1921~3126 kg·hm−2、3023~10 116 kg·hm−2和6034~18 958 kg·hm−2, 蚯蚓粪平均产量分别为2652 kg·hm−2、6438 kg·hm−2和12 545 kg·hm−2; 平均值均表现为油菜>紫云英>冬闲。粪蚓比伴随冬季作物产量的增加而增加, 平均为8.8。油菜不同产量水平间的蚯蚓产量及蚯蚓粪产量的变幅均小于紫云英。综上, 蚯蚓产量及蚯蚓粪产量受年际间气候干扰较大, 冬季作物高产田块的土壤有机质含量较高, 有利于提高蚯蚓产量、蚯蚓粪产量及其产量稳定性, 且冬种油菜的效果更好。

     

    Abstract: There is a large market demand for earthworms; thus, earthworm breeding will increase in the future. However, artificial earthworm breeding faces many problems, such as large labor input, high breeding costs, and difficulty in large-scale breeding. Increased earthworm production by planting winter crops may be an effective way to solve these problems. This study incorporated a field investigation and rainfall and accumulated temperature data from 2017 to 2020 to investigate the effects of different winter crops, including fallow (T1), milk vetch (T2), and rapeseed (T3), on the yield and cast of Pheretima guillelmi to provide theoretical and technical support for earthworm production in paddy fields. The results showed that the coefficient of variation (CV) of earthworm yield in different years was positively correlated with the CV of winter crops yield (P<0.01). Continuous rainfall from October to December and low temperatures from December to February from 2018 to 2019 led to a significant decrease in the yields of winter crops and earthworms. The soil organic matter content (average value under three yield levels) was in the order of rapeseed > milk vetch > fallow, and the earthworm yield and earthworm manure yield were significantly positively correlated with the soil organic matter content (P<0.05) and with winter crop yield. The earthworm individuals number per m2 of fallow, milk vetch, and rapeseed was 8.4−12.8, 11.2−30.8, and 20.4−49.1, respectively, the average earthworm individuals number per m2 was 10.8, 20.7 and 36.3, respectively. The earthworm yield was 290−428 kg·hm−2, 368−1054 kg·hm−2, and 763−1845 kg·hm−2, respectively, and the average earthworm yield were 373 kg·hm−2, 695 kg·hm−2, and 1364 kg·hm−2, respectively. The earthworm cast yield was 1921−3126 kg·hm−2, 3023−10 116 kg·hm−2, and 6034−18 958 kg·hm−2, respectively, and with the averages of 2652 kg·hm−2, 6438 kg·hm−2, and 12 545 kg·hm−2, respectively. The averages were in the order of rapeseed > milk vetch > fallow. The ratio of cast weight to fresh earthworm weight increased with increasing winter crop yield, with an average value of 8.8; the average values for fallow, milk vetch, and rapeseed were 7.1, 9.1, and 9.0, respectively. Variation in earthworm yield and earthworm cast yield between different yield levels of rapeseed was less than that of milk vetch, indicating that rapeseed was beneficial for higher yield stability for earthworms and earthworm casts. In summary, the yield of earthworms and casts was greatly disturbed by rainfall and accumulated temperature, and the high-yield fields of winter crops had high soil organic matter content, which was conducive to increasing the yields of earthworms and earthworm casts and increasing their stability. Planting rapeseed also had a beneficial effect.

     

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