Mixed application of biochar, maize straw, and nitrogen can improve organic carbon fractions and available nutrients of a sandy soil

IF 1.9 4区农林科学 Q3 ENVIRONMENTAL SCIENCES

Arid Land Research and Management Pub Date : 2022-08-17 DOI:10.1080/15324982.2022.2104183

Hui-Qi Zhang, Yan Qin, Zi-Zhong Li, Zeng-Zhen Song

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Abstract

Abstract Biochar with maize straw and nitrogen application may provide better crop growth conditions with respect to soil C/N, organic carbon fractions, and available nutrients than biochar applied alone. An incubation experiment was conducted in which biochar of maize straw pyrolyzed at 500 °C was applied with maize straw and nitrogen over 150 days. The treatments consisted of three rates of biochar applied at 0 (BC), 30 (BC3), and 60 g kg−1 (BC6), two rates (0 and 2 g kg−1) of maize straw (S), and two rates (0 and 0.1 g kg−1) of nitrogen (N) fertilizer (ammonium bicarbonate). The control (CK) was blank soil unfertilized with BC, N, and S. Sampling was done at 30, 60, and 150 days, respectively. The treatments of BC3 and BC6 significantly increased the content of soil total organic carbon by 840–1735%, oxidizable organic carbon (KMnO4–C) by 151–250%, dissolved organic carbon (DOC) by 221–976%, microbial biomass carbon (MBC) by 113–274%, available phosphorus (AP) by 969–4820%, and available potassium (AK) by 715–2413% in the sandy soil. Biochar reduced the ammonium nitrogen and nitrate nitrogen (NH4 +–N and NO3 −–N) contents, while it increased the carbon-nitrogen ratio (C/N) to 42. Nitrogen addition increased the contents of NH4 +–N by 395% and NO3 −–N by 661% compared with the CK after 30 days. Straw only affected the contents of DOC and MBC. The S + N treatment increased the content of MBC and available nitrogen compared with the CK. The contents of KMnO4–C, DOC, MBC, NH4 +–N, NO3 −–N, AP, and AK in the BC + N and BC + S treatments were higher than those in the BC treatments. The BC + N and BC + S treatments could decrease the high C/N that resulted from biochar alone. The contents of KMnO4–C, DOC, MBC, NH4 +–N, NO3 −–N, AP, and AK in the BC + S + N treatment were higher than those in the BC + S and BC + N treatments. Therefore, we recommend using BC6 + S + N to improve the organic carbon fractions and available nutrients in sandy soil. If straw is lacking in the field, BC6 + N is a suitable alternative.

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混合施用生物炭、玉米秸秆和氮可以改善沙质土壤的有机碳组分和有效养分

玉米秸秆配施生物炭和施氮比单独施用生物炭在土壤C/N、有机碳组分和速效养分方面提供了更好的作物生长条件。将玉米秸秆在500℃下热解后的生物炭与玉米秸秆和氮肥一起施用150 d，进行了培养试验。这些处理包括:0 (BC)、30 (BC3)和60 g kg - 1 (BC6) 3种浓度的生物炭，2种浓度(0和2 g kg - 1)的玉米秸秆，以及2种浓度(0和0.1 g kg - 1)的氮肥(碳酸氢铵)。对照(CK)为未施肥BC、N和s的空白土壤，分别于30、60和150 d取样。BC3和BC6处理显著提高了土壤总有机碳含量840 ~ 1735%，可氧化有机碳(KMnO4-C)含量151 ~ 250%，溶解有机碳(DOC)含量221 ~ 976%，微生物生物量碳(MBC)含量113 ~ 274%，有效磷(AP)含量969 ~ 4820%，速效钾(AK)含量715 ~ 2413%。生物炭降低了铵态氮和硝态氮(NH4 + -N和NO3−-N)含量，提高了碳氮比(C/N)至42。30 d后，与对照相比，添加氮肥使土壤NH4 + -N含量提高了395%，NO3−-N含量提高了661%。秸秆仅影响DOC和MBC的含量。与对照相比，S + N处理提高了MBC含量和速效氮含量。BC + N和BC + S处理的KMnO4-C、DOC、MBC、NH4 + -N、NO3−-N、AP和AK含量均高于BC处理。BC + N和BC + S处理可以降低生物炭单独产生的高碳氮比。BC + S + N处理的KMnO4-C、DOC、MBC、NH4 + -N、NO3−-N、AP和AK含量均高于BC + S和BC + N处理。因此，我们建议使用BC6 + S + N来改善沙质土壤的有机碳组分和速效养分。如果田间缺乏秸秆，BC6 + N是合适的替代方案。

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来源期刊

Arid Land Research and Management 环境科学-环境科学

CiteScore

3.80

自引率

7.10%

发文量

审稿时长

9 months

期刊介绍： Arid Land Research and Management, a cooperating journal of the International Union of Soil Sciences , is a common outlet and a valuable source of information for fundamental and applied research on soils affected by aridity. This journal covers land ecology, including flora and fauna, as well as soil chemistry, biology, physics, and other edaphic aspects. The journal emphasizes recovery of degraded lands and practical, appropriate uses of soils. Reports of biotechnological applications to land use and recovery are included. Full papers and short notes, as well as review articles and book and meeting reviews are published.