Sixty-year impact of manure and NPK on soil aggregate stability

IF 3.1 2区 农林科学 Q2 SOIL SCIENCE Geoderma Regional Pub Date : 2024-09-06 DOI:10.1016/j.geodrs.2024.e00858
Iva Stehlíková , Radka Kodešová , Eva Kunzová , Alena Czakó , Markéta Mayerová , Mikuláš Madaras
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Abstract

Understanding how long-term land use affects soil quality and resistance to degradation is essential for identifying sustainable management practices in different soil types. This study's aim was to evaluate how different fertilization approaches influence soil aggregate stability (SAS) and some associated soil properties. The experiment was established in 1955 at three sites with different soil types (Chernozem on loess, Phaeozem on loess, and Cambisol on gneiss) and diverse climatic conditions. Three fertilization scenarios were selected for the study conducted during 2014–2021: i) farmyard manure (40 t ha−1) once every 4 years; ii) NPK mineral fertilizer every year plus farmyard manure once every 4 years, and iii) no fertilizer (control).

Farmyard manure positively affected stability of the Cambisol soil aggregates in both cases of fertilization (i and ii). On the other hand, manure had negligible impact upon SAS of the other two soils. In addition, significantly lower SAS values were measured for soils fertilized also by the mineral fertilizer (ii) than for the other scenarios (i and iii). Manure treatment and combined fertilization showed a significant increase in hot water extractable carbon and total carbon content at all sites compared to the unfertilized treatments. A positive relationship between SAS and total organic carbon was confirmed, however, only for the Cambisol spring samples. In some years, composition of organic matter or content of glomalin was also investigated to reveal their effects on SAS. A positive impact of hydrophobicity on SAS was proven for the Phaeozem and Chernozem, but not for the Cambisol. An unexpected negative effect was observed for glomalin. For both spring and summer sampling events, the SAS values were strongly and negatively correlated with the field (sampling) soil water content, which partly masked effects of other soil properties on SAS. These results underscore the importance of complex long-term studies for understanding mutual interactions affecting the stability of soil aggregates in individual soil types and different climatic conditions.

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粪肥和氮磷钾对土壤团聚稳定性的六十年影响
了解土地的长期使用如何影响土壤质量和抗退化能力,对于确定不同土壤类型的可持续管理方法至关重要。本研究旨在评估不同施肥方法如何影响土壤团聚稳定性(SAS)和一些相关的土壤特性。试验于 1955 年在三个不同土壤类型(黄土上的切尔诺泽姆、黄土上的法奥泽姆和片麻岩上的坎比索尔)和不同气候条件的地点进行。2014-2021 年期间进行的研究选择了三种施肥方案:i) 每 4 年施一次农家肥(40 吨/公顷-1);ii) 每年施一次氮磷钾矿物肥料,每 4 年施一次农家肥;iii) 不施肥(对照)。另一方面,粪肥对其他两种土壤的 SAS 影响微乎其微。此外,同时施用矿物肥料(ii)的土壤的 SAS 值明显低于其他施肥方案(i 和 iii)。与未施肥的处理相比,粪肥处理和联合施肥在所有地点都能显著提高热水提取碳和总碳含量。不过,只有在 Cambisol 的春季样本中,SAS 和总有机碳之间的正相关关系得到了证实。有些年份还研究了有机物的成分或胶霉素的含量,以揭示它们对 SAS 的影响。在 Phaeozem 和 Chernozem,疏水性对 SAS 有积极影响,但在 Cambisol 却没有。而在草甘膦方面则出现了意想不到的负面影响。在春季和夏季采样活动中,SAS 值与现场(采样)土壤含水量呈强烈的负相关,这在一定程度上掩盖了其他土壤特性对 SAS 的影响。这些结果凸显了复杂的长期研究对于了解不同土壤类型和不同气候条件下影响土壤团聚体稳定性的相互影响的重要性。
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来源期刊
Geoderma Regional
Geoderma Regional Agricultural and Biological Sciences-Soil Science
CiteScore
6.10
自引率
7.30%
发文量
122
审稿时长
76 days
期刊介绍: Global issues require studies and solutions on national and regional levels. Geoderma Regional focuses on studies that increase understanding and advance our scientific knowledge of soils in all regions of the world. The journal embraces every aspect of soil science and welcomes reviews of regional progress.
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