钠灰化土的农业成因演化:在带状粘土上形成的休耕地重复再参与耕作的可行性

A. Litvinovich, A. Lavrishchev, V. Bure, Tara Grujić, E. Saljnikov
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引用次数: 0

摘要

在俄罗斯西北部列宁格勒地区,研究了长期农业利用(约200年)中钠灰化浅灰粘土的转化。本可行性研究调查了长期休耕后这些土壤复耕的可能性。分析了原始(原生林)和耕地排水土壤的形态结构、粒度分布、铁和铁氧化物形态的含量和比例。此外,在长期的农业发生过程中(100 ~ 200年),追踪了有机成因剖面的变化。在原始森林土壤中,在成土过程中,土壤组分的损失(200年)导致细土颗粒的淋积损失增加。<0.01 mm和< 0.0001 mm耕地层损失分别为1244.8和570 kg m-2。这是由于每年多次耕作增加了土壤的孔隙度,从而加剧了水土流失,导致淋失和残积损失增加。未开垦土壤的胶体总流失量为262.1 kg m-2,排干土壤耕层的胶体总流失量为290.1 kg m-2。耕地土壤耕层胶体的腐殖质富集程度比未开垦土壤耕层低2倍。胶体参与土壤固定腐殖质的相对份额相同(分别为11.6%和10.9%)。在地下层位,胶体中腐殖质的绝对含量降低,参与固定腐殖质的份额增加。盐碱化灰化黏土改良了水气条件,增加了腐殖质含量和组成,增加了耕地层深,降低了土壤酸度。同时也加速了细土物质的浸出。当这些土壤从作物生产中撤出时,由于耕种而取得的积极变化就逐渐丧失了。我们首次可以定性地计算出给定土壤中表层土细土组分的损失。考虑到重新耕作原土地的高成本,以及重新安装和维护最佳水文系统(排水网络)的高成本,我们得出结论,重复耕作和将可耕种的碱灰化粘土纳入耕作在经济上是不合理的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Agrogenic evolution of soddy-podzolic soil: Feasibility of repeated re-involvement in cultivation of the fallow lands formed on band clays
Transformations of the soddy-podzolic gleyic clay soil in a long-term agricultural use (> 200 years) was studied in Leningrad region, northwest Russia. This feasibility study investigated the possibility of re-cultivation of these soils after long term fallowing. Morphological structure, particle size distribution, content and ratio of ferrous and oxide forms of iron in the profile of virgin (indigenous forest) and arable drained soil were analysed. In addition, changes in the organogenic-profile were traced in the course of long-term agrogenesis (> 200 years). In virgin forest soil, during its pedogenesis the loss of fractions <0.01 mm from the eluvial layer was 877.4 kg m-2 , and the loss of <0.0001mm was 287.5 kg m-2 , as compared with parent material not affected by the processes of pedogenesis. However, long-term agrogenesis (>200 years) led to increased eluvial losses of fine earth particles. The loss of fraction <0.01 mm from the arable horizons was 1244.8, and < 0.0001 mm was 570 kg m-2 , respectively. This was due to multiple yearly tillage that increased the porosity of the soil and thus intensified lessivage, which led to increased leaching and eluvial losses. The total loss of colloids from the entire profile of virgin soil was 262.1 kg m-2 , and from the arable layer of drained soil - 290.1 kg m-2 . The humus enrichment of the colloids of the plough (P) horizon of the arable soil was two times lower than that of the surface (AY) horizon of the virgin soil. The relative share of the participation of colloids in the fixation of humus by the soil was the same (11.6 and 10.9%, respectively). In the subsurface horizons, the absolute content of humus in the colloids decreased, and the share of participation in the fixation of humus increased. When soddy-podzolic gleyic clay soil is brought to cultivation then the water-air regime is improved, content and composition of humus, depth of arable horizon is increased and the soil acidity decreased. At the same time the leaching of fine earth materials is accelerated. When this soil was withdrawn from crop production, the positive changes achieved as a result of cultivation were gradually lost. For the first time we could qualitatively calculate the losses of the fine earth fractions for the given soil from top soil. Taking into account the high costs of re-cultivation of the former land and a high cost of re-installation and maintenance of an optimal hydrological regime (drainage network) we concluded that repeated ploughing and involvement of arable soddy-podzolic gleyic clay soil into cultivation is economically unreasonable.
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