Surface soil sampling underestimates soil carbon and nitrogen storage of long-term cover cropping

IF 3.1 2区 农林科学 Q2 SOIL SCIENCE
Yajun Peng, Laura L. Van Eerd
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引用次数: 0

Abstract

Cover cropping is a promising management practice for soil health and climate change mitigation by improving soil organic carbon (SOC) and total nitrogen (TN) stocks. However, limited studies focused on deeper soil layers (>30 cm depth) where soil C is more stable than that in surface soil (≤30 cm depth). Here, deep soil sampling was conducted in a 15-year cover cropping experiment, in a horticulture-grain system on sandy loam soil. The SOC and TN stocks were expressed on an equivalent soil mass basis using a cubic spline model. Overall, long-term cover cropping had significantly greater SOC and TN stocks by 22 % (95 %CI: 5–43 %) and 26 % (95 %CI: 6–49 %), respectively in the 0–120 cm depth, compared to no cover cropping. Additionally, the mean SOC and TN sequestration rate (0–30 cm depth) was 0.53 Mg C ha−1 yr−1 and 0.06 Mg N ha−1 yr−1, respectively. However, if only 0–15 cm depth was evaluated, long-term cover cropping did not significantly affect SOC and TN stocks. These results indicated that shallow sampling (<15 cm depth) may not provide comprehensive information on the effect of long-term cover cropping on soil C and N storage. To better understand the mechanism of bulk soil C and N storage, we investigated their distribution between particulate and mineral-associated organic matter pools (POM and MAOM). We found POM pool was the main store of bulk SOC and TN stocks in surface soils while it was the MAOM pool in deeper soil layers, without soil texture change with soil depth. These findings indicated that soil C and N sources for bulk SOC and TN accrual differed in surface and deeper soils. Our study demonstrated that long-term cover cropping can facilitate SOC accumulation in the soil below 15 cm deep, which calls into question carbon capture protocols that focus on shallow soil depths.
表层土壤取样低估了长期覆盖种植的土壤碳氮储存量
通过提高土壤有机碳(SOC)和全氮(TN)储量,覆盖种植是一种很有前景的土壤健康和减缓气候变化的管理方法。然而,针对较深土层(30 厘米深)的研究有限,因为与表层土壤(≤30 厘米深)相比,深层土壤中的土壤碳更为稳定。在此,我们在沙质壤土的园艺-谷物系统中进行了为期 15 年的覆盖种植试验,并对深层土壤进行了取样。采用三次样条模型,以等效土壤质量为基础,表示 SOC 和 TN 储量。总体而言,与不进行覆盖耕作相比,长期覆盖耕作在 0-120 厘米深度的 SOC 和 TN 储量分别显著增加了 22 %(95 %CI:5-43 %)和 26 %(95 %CI:6-49 %)。此外,平均 SOC 和 TN 固存率(0-30 厘米深度)分别为 0.53 兆克碳/公顷-年-1 和 0.06 兆克氮/公顷-年-1。然而,如果只评估 0-15 厘米深度,长期覆盖种植对 SOC 和 TN 储量的影响并不显著。这些结果表明,浅层取样(15 厘米深)可能无法提供长期覆盖种植对土壤碳和氮储存影响的全面信息。为了更好地了解大体积土壤碳和氮的储存机制,我们研究了它们在颗粒有机质池和矿物相关有机质池(POM 和 MAOM)之间的分布。我们发现,在表层土壤中,颗粒有机质池是大体积 SOC 和 TN 储量的主要存储池,而在深层土壤中,颗粒有机质池则是 MAOM 池,且土壤质地不随土壤深度而变化。这些发现表明,表层土壤和深层土壤中大量 SOC 和 TN 的土壤碳源和氮源不同。我们的研究表明,长期覆盖种植可促进 15 厘米深以下土壤中 SOC 的积累,这就对只关注浅层土壤的碳捕获方案提出了质疑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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