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Factors governing soil hydrological function under long‐term tillage practices: Insight into soil water repellency 长期耕作条件下控制土壤水文功能的因素:对土壤拒水性的洞察
IF 2.9 3区 农林科学 Q2 SOIL SCIENCE Pub Date : 2023-05-05 DOI: 10.1002/saj2.20554
Shengping Li, Xiaotong Liu, Xueping Wu, Jinjing Lu, Ahmed Ali Abdelrhmana, Guopeng Liang
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引用次数: 0
Speciation and Microscale Distribution of Phosphorus Compounds Accumulated in Continuously Fertilized Greenhouse Soils 连续施肥温室土壤中磷化合物的形态及微尺度分布
IF 2.9 3区 农林科学 Q2 SOIL SCIENCE Pub Date : 2023-05-04 DOI: 10.1002/saj2.20553
N. Yamaguchi, Atsuko Hikono, Aomi Suda, Y. Hashimoto, S. Yada, Masatoshi Ooshima, Taku Yamamoto, Kaori Ando, M. Kasuya
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引用次数: 0
Soil aggregate stability quantified by different methods is unaffected by rice straw biochar in the long‐term 不同方法量化的土壤团聚体稳定性在长期内不受秸秆生物炭的影响
IF 2.9 3区 农林科学 Q2 SOIL SCIENCE Pub Date : 2023-05-03 DOI: 10.1002/saj2.20556
P. B. Obour, E. Danso, S. Y. Dorvlo, E. Arthur
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引用次数: 1
Simple approaches to modeling pH‐dependent and multicomponent sorption of ions by variable‐charge minerals 通过可变电荷矿物模拟pH依赖性和多组分离子吸附的简单方法
IF 2.9 3区 农林科学 Q2 SOIL SCIENCE Pub Date : 2023-05-03 DOI: 10.1002/saj2.20555
J. Padilla
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引用次数: 1
Comparison of Bray‐1 and Mehlich‐3 Extraction of P and K in Wisconsin Silt Loam Soils Bray-1和Mehlich‐3提取威斯康星州粉质壤土中磷和钾的比较
IF 2.9 3区 农林科学 Q2 SOIL SCIENCE Pub Date : 2023-05-02 DOI: 10.1002/saj2.20557
E. Matcham, M. Ruark, D. Stoltenberg, S. Conley
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引用次数: 0
Thanks to our 2022 reviewers 感谢我们的2022位审稿人
3区 农林科学 Q2 SOIL SCIENCE Pub Date : 2023-04-30 DOI: 10.1002/saj2.20550
Soil Science Society of America JournalAccepted Articles Thanks to Reviewers Thanks to Reviewers, Soil Sciences Society of America Journal, 2022 First published: 11 April 2023 https://doi.org/10.1002/saj2.20550 This article has been accepted for publication and undergone full peer review but has not been through the copyediting, typesetting, pagination and proofreading process, which may lead to differences between this version and the Version of Record. Please cite this article as https://doi.org/10.1002/saj2.20550 AboutPDF ToolsExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Accepted ArticlesAccepted, unedited articles published online and citable. The final edited and typeset version of record will appear in the future. RelatedInformation
美国土壤科学学会期刊接受文章感谢审稿人感谢审稿人,美国土壤科学学会期刊,2022首次发表:2023年4月11日https://doi.org/10.1002/saj2.20550本文已被接受发表,并经过了充分的同行评审,但尚未完成编辑、排版、页数和校对过程,因此可能导致本版本与记录版本存在差异。请将本文引用为https://doi.org/10.1002/saj2.20550 AboutPDF ToolsExport citation添加到收藏夹strack citation ShareShare给予accessShare全文accessShare全文accessShare请查看我们的使用条款和条件,并勾选下面的复选框以共享文章的全文版本。我已经阅读并接受了Wiley在线图书馆使用共享链接的条款和条件,请使用下面的链接与您的朋友和同事分享本文的全文版本。学习更多的知识。接受的文章接受的,未经编辑的文章发表在网上和可引用。记录的最终编辑和排版版本将在将来出现。RelatedInformation
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引用次数: 0
Microbial community shifts in pearl millet root zone soils with Guiera senegalensis intercropping along a rainfall and soil type gradient in the Sahel 萨赫勒地区塞内加尔藜间作珍珠粟根区土壤微生物群落沿降雨和土壤类型梯度的变化
3区 农林科学 Q2 SOIL SCIENCE Pub Date : 2023-04-07 DOI: 10.1002/saj2.20494
Laura Mason, Spencer Debenport, Chelsea DeLay, Ibrahima Diedhiou, Brian B. McSpadden Gardener, Komi B. Assigbetsee, Virginia Rich, Richard P Dick
Abstract The Sahel of West Africa has vulnerable agroecosystems that threatens food security. A potential solution is intercropping with the indigenous shrub, Guiera senegalensis J.F. Gmel. Previous research of the Optimized Shrub‐intercropping System (OSS) (high density of ∼1,500 shrubs ha ‐1 and coppiced residue incorporation) has been shown to dramatically improve pearl millet [ Pennisetum glaucum (L.) R. Br.] yield, which is attributed to improved soil quality, nutrient and water availability, and harboring a distinct microbial community. Whether this response is consistent over a climate and soil type gradient in farmers’ fields has not been investigated. Therefore, the objective was to determine the impact of G. senegalenis on soil chemistry, enzyme activity, microbiomes, and metabolic pathways of millet root zone soils in farmers’ fields. The experiment was a three‐by‐two factorial with three rainfall and soil type sites along a north–south gradient in the Senegal Peanut Basin and two sampling locations (millet root zone soil within and outside the influence of the G. senegalensis ). Guiera senegalensis shifted certain predicted bacterial metabolic pathways and enriched some bacterial and fungal genera. Notably, the increased crop growth due to G. senegalensis positively correlated with the abundance of genera having plant growth promoting properties (e.g., Enterobacter agglomerans and Paraburkholderia ). Paucibacter , a genera that has deleterious and/or pathogenic properties, was highly abundant in non‐shrub soil but completely suppressed beneath the shrub. The results showed that G. senegalensis in farmers’ fields even at typical, low densities, where coppiced residues are annually burned, still increased soil chemical and microbial properties, suggesting that a more important factor than litter is the presence of shrub roots that provide root turnover and exudates, and water inputs through hydraulic lift.
西非萨赫勒地区脆弱的农业生态系统威胁着粮食安全。一个潜在的解决方案是与当地灌木guera senegalensis J.F. Gmel间作。先前的研究表明,优化灌木间作系统(OSS)(灌木密度为~ 1,500 ha - 1,混交残茬)可以显著提高珍珠粟[Pennisetum glaucum (L.)]的产量。r . Br。这是由于土壤质量、养分和水分供应的改善,以及拥有独特的微生物群落。这种反应是否在农民田间的气候和土壤类型梯度上是一致的尚未进行调查。因此,本研究旨在确定塞内加尔藜对稻田谷子根区土壤化学、酶活性、微生物组和代谢途径的影响。该试验采用三乘二因子法,在塞内加尔花生盆地沿南北梯度的三个降雨和土壤类型地点和两个采样地点(受塞内加尔花生影响的谷子根区土壤内外)进行。塞内加尔圭亚那改变了某些预测的细菌代谢途径,丰富了一些细菌和真菌属。值得注意的是,G. senegalensis增加的作物生长与具有植物生长促进特性的属的丰度呈正相关(例如,肠杆菌和Paraburkholderia)。Paucibacter是一种具有有害和/或致病特性的属,在非灌木土壤中非常丰富,但在灌木下完全被抑制。结果表明,即使是在典型的低密度、每年焚烧秸秆的情况下,senegalensis仍能提高土壤的化学和微生物特性,这表明比凋落物更重要的因素是灌木根系的存在,它们提供根系翻转和渗出物,并通过液压升降机输入水分。
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引用次数: 0
Residue‐ and nitrogen‐induced carbon mineralization varies with soil fertility status 残渣和氮诱导的碳矿化随土壤肥力状况而变化
3区 农林科学 Q2 SOIL SCIENCE Pub Date : 2023-04-06 DOI: 10.1002/saj2.20530
Tanjila Jesmin, Richard L. Mulvaney, Thomas W. Boutton
Abstract By increasing the input of corn ( Zea mays L.) residues, synthetic nitrogen (N) fertilization is often assumed to enhance soil storage of organic carbon (C), which could be especially beneficial for improving the fertility of depleted soils. To ascertain whether such a strategy can be effective, C mineralization was compared for two soils with different indigenous N contents by conducting a 60‐day laboratory incubation experiment that involved continuous monitoring of CO 2 emissions with periodic sampling for atmospheric δ 13 C analysis and for determination of soil microbial biomass and cellulolytic enzyme activities. The addition of exogenous N had a stimulatory effect on cumulative CO 2 production that was greater for the low than high N supplying soil and more prominent in the first than in the second month of incubation. During residue decomposition, microbial activities were maximized by incubating the low N soil with exogenous N, whereas cellulolytic enzyme activities were greater for the high N soil. Although intensive N fertilization can substantially increase the productivity of low‐fertility soils, the additional residue inputs thereby generated are more effective for promoting C mineralization than sequestration.
通过增加玉米(Zea mays L.)残茬的输入,合成氮(N)施肥通常被认为可以提高土壤有机碳(C)的储存,这可能特别有利于提高枯竭土壤的肥力。为了确定这种策略是否有效,研究人员进行了为期60天的实验室培养实验,比较了两种不同原生氮含量土壤的碳矿化程度,该实验包括连续监测二氧化碳排放,定期采样大气δ 13c分析,并测定土壤微生物生物量和纤维素水解酶活性。外源氮的添加对累积CO 2产量的刺激作用在低氮供应土壤中大于高氮供应土壤,并且在孵化的第一个月比第二个月更为突出。在残渣分解过程中,外源氮与低氮土壤的微生物活性最大,而高氮土壤的纤维素水解酶活性更大。尽管密集施氮可以显著提高低肥力土壤的生产力,但由此产生的额外残留物投入对促进碳矿化比固存更有效。
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引用次数: 0
Forming Regional Soil Carbon Networks to Support Effective Climate Change Solutions 建立区域土壤碳网络以支持有效的气候变化解决方案
IF 2.9 3区 农林科学 Q2 SOIL SCIENCE Pub Date : 2023-04-06 DOI: 10.1002/saj2.20551
G. Lawrence, I. Fernandez, S. Bailey, C. Beier, A. Contosta, E. Lane, Peter Murdoch, L. Nave, Angelica Quintana, Donald Ross, Alissa White
Sequestration and storage of organic carbon (C) in soil is an essential component of climate change mitigation and fundamental in promoting the health and climate resilience of soils. Sources of available soil C data are increasing, which complicates efforts to consolidate the data in forms that can be readily used by stakeholders. Spatial and temporal gaps in data availability also limit the quantification of changes in soil C through space and time. Improved coordination among producers and users of
土壤中有机碳(C)的封存和储存是缓解气候变化的重要组成部分,也是促进土壤健康和气候适应性的基础。可用土壤C数据的来源正在增加,这使以利益相关者易于使用的形式整合数据的工作变得复杂。数据可用性的空间和时间差距也限制了土壤C在空间和时间上变化的量化。改进了
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引用次数: 0
2022 SSSA Award Recipients 2022年SSSA奖获得者
3区 农林科学 Q2 SOIL SCIENCE Pub Date : 2023-04-05 DOI: 10.1002/saj2.20541
Soil Science Society of America JournalVolume 87, Issue 3 p. 720-726 ALSO IN THIS ISSUE 2022 SSSA Award Recipients First published: 15 March 2023 https://doi.org/10.1002/saj2.20541Read the full textAboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Volume87, Issue3May/June 2023Pages 720-726 RelatedInformation
美国土壤科学学会杂志第87卷,第3期p. 720-726也在这期2022 SSSA奖获得者首次发布:2023年3月15日https://doi.org/10.1002/saj2.20541Read全文taboutpdf ToolsRequest permissionExport citation添加到favoritesTrack citation ShareShare给accessShare全文accessShare全文accessShare请查看我们的使用条款和条件,并在下面的复选框分享文章的全文版本。我已经阅读并接受了Wiley在线图书馆使用共享链接的条款和条件,请使用下面的链接与您的朋友和同事分享本文的全文版本。学习更多的知识。Copy URL第87卷,第3期2023年5月/ 6月720-726页
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