Two aspects of earthworm bioturbation: Crop residue burial by foraging and surface casting in no-till management

IF 3.7 2区 农林科学 Q1 ECOLOGY
Peter Bentley , Kevin R. Butt , Visa Nuutinen
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引用次数: 0

Abstract

In no-till agroecosystems, presence of the earthworm Lumbricus terrestris L. can be a key driver in the replenishment of soil organic matter stocks post-harvest, through surface residue foraging and incorporation. The impact on such systems under different climatic conditions is, however, still unquantified. A field experiment was designed to determine incorporation of cereal harvest residues at three no-till agricultural sites in boreal conditions (SW Finland) focusing on L. terrestris impacts over the period from autumn harvest to spring sowing. Either spring barley, wheat or oats were cultivated at the sites. Following the harvests, representative masses of residues were applied on small experimental plots (0.25 m2) with cleaned soil surfaces in areas of inherently high (LT+: 10.6 ± 2.1 ind. 0.25 m-2) and low (LT-: 1.8 ± 0.7 ind. 0.25 m-2L. terrestris density within the fields. Residues were covered with metal mesh caging and left until spring sowing, when changes in residue mass were recorded and plots sampled for earthworms. The reduction of straw residue mass varied between sites, from no difference between the LT+ and LT- treatments to 19 % and 59 % higher mass reduction in LT+. Amount of earthworm castings on the residues was also quantified and findings indicated a positive correlation with earthworm (also endogeic) density. For L. terrestris, earthworm species abundance relationships indicated competitive interaction with epigeics and positive interaction with endogeics. Results showed that L. terrestris foraging can enhance the incorporation of cereal surface residues outside of the boreal growing season and that earthworm surface casting also has a role in residue burial. However, the increase of incorporation by L. terrestris activity, interrupted by winter conditions, was moderate and did not lead to marked exposition of the soil surface by experimental end, even at those plots with the highest L. terrestris foraging. The incorporation rate estimates may have been unrepresentative due to the exceptionally late harvest during the study period. Investigations covering the whole year from multiple growing seasons are needed for a comprehensive assessment of earthworm impacts on crop surface residue dynamics.

蚯蚓生物扰动的两个方面:免耕管理中通过觅食和地表抛撒掩埋作物残留物
在免耕农业生态系统中,蚯蚓(Lumbricus terrestris L.)通过觅食和掺入地表残留物,可以成为收获后补充土壤有机物质储量的关键驱动力。然而,在不同气候条件下对此类系统的影响仍未量化。我们设计了一项田间试验,以确定在北方条件下(芬兰西南部)的三个免耕农田中谷物收获后残留物的掺入情况,重点是 L. terrestris 在秋收至春播期间的影响。这些地点都种植了春大麦、小麦或燕麦。收获后,在田间 L. terrestris 密度较高(LT+:10.6 ± 2.1 ind. 0.25 m-2)和较低(LT-:1.8 ± 0.7 ind. 0.25 m-2)的地区,将具有代表性的大量残留物施用于清洁过土壤表面的小块实验地(0.25 m2)。残留物用金属网笼罩,一直放置到春季播种,然后记录残留物质量的变化,并对地块进行蚯蚓采样。不同地点的秸秆残留物质量减少情况各不相同,LT+ 和 LT- 处理之间没有差异,而 LT+ 处理的质量减少率分别高出 19% 和 59%。残留物上的蚯蚓粪量也进行了量化,结果表明与蚯蚓(也包括内生蚯蚓)密度呈正相关。对于 L. terrestris,蚯蚓物种丰度关系表明它与表生蚯蚓之间存在竞争性相互作用,而与内生蚯蚓之间存在正向相互作用。结果表明,陆生蚯蚓的觅食可以提高北方生长季节以外谷物表面残留物的掺入量,蚯蚓的表面投食也对残留物的掩埋有一定作用。不过,由于冬季条件的影响,蚯蚓活动增加的掺入率并不高,即使在蚯蚓觅食量最大的地块,到实验结束时也不会导致土壤表面明显暴露。由于研究期间收割特别晚,估计的掺入率可能不具代表性。要全面评估蚯蚓对作物表层残留物动态的影响,需要对全年多个生长季节进行调查。
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来源期刊
European Journal of Soil Biology
European Journal of Soil Biology 环境科学-生态学
CiteScore
6.90
自引率
0.00%
发文量
51
审稿时长
27 days
期刊介绍: The European Journal of Soil Biology covers all aspects of soil biology which deal with microbial and faunal ecology and activity in soils, as well as natural ecosystems or biomes connected to ecological interests: biodiversity, biological conservation, adaptation, impact of global changes on soil biodiversity and ecosystem functioning and effects and fate of pollutants as influenced by soil organisms. Different levels in ecosystem structure are taken into account: individuals, populations, communities and ecosystems themselves. At each level, different disciplinary approaches are welcomed: molecular biology, genetics, ecophysiology, ecology, biogeography and landscape ecology.
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