Organic carbon preservation promoted by aromatic compound-iron complexes through manure fertilization in red soil

Purpose This study was aimed at evaluating the effect of manure fertilization on organo-mineral complexes based on unfertilized (CK) and 5-year manure fertilization (M) in red soils (ultisols). Materials and methods Sequential density fractionation was adopted to obtain particular organic matter (PO...

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Published in	Journal of soils and sediments Vol. 21; no. 1; pp. 295 - 306
Main Authors	Wen, Yunjie, Wen, Jiong, Wang, Qi, Bai, Lingyu, Wang, Yanan, Su, Shiming, Wu, Cuixia, Zeng, Xibai
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.01.2021 Springer Nature B.V
Subjects	Aluminium Aluminum Aluminum oxide Analytical methods Aromatic compounds Biological fertilization Coordination compounds Demineralization Demineralizing Dissolved organic carbon Earth and Environmental Science Environment Environmental Physics Farmyard manure Feldspars Fertilization Fourier transform infrared spectroscopy Fourier transforms Fractionation Hafnium Hydrofluoric acid Infrared spectroscopy Iron Manures Nitrogen organic carbon Organic matter Oxides Polysaccharides Preservation quartz Reduction Saccharides Sec 3 • Remediation and Management of Contaminated or Degraded Lands • Research Article Soil Soil Science & Conservation Soils Stabilizing mechanism Poorly crystalline mineral oxides Hydrofluoric acid Sequential density fractionation
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ISSN	1439-0108 1614-7480 1614-7480
DOI	10.1007/s11368-020-02769-y

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Abstract	Purpose This study was aimed at evaluating the effect of manure fertilization on organo-mineral complexes based on unfertilized (CK) and 5-year manure fertilization (M) in red soils (ultisols). Materials and methods Sequential density fractionation was adopted to obtain particular organic matter (POM, < 1.8 g cm −3 ) and mineral-associated organic matter (1.8–2.2 g cm −3 (MOM 1.8–2.2 ); 2.2–2.6 (MOM 2.2–2.6 ); > 2.6 (MOM > 2.6 )), which were demineralized by hydrofluoric acid (HF). The HF-dissolved organic carbon (OC) was identified as mineral bound OC, and was characterized by comparing the band area of Fourier transform infrared spectroscopy before and after 10% HF demineralization. Results and discussion Manure fertilization significantly increased the OC and nitrogen contents of bulk soil, POM, MOM 1.8–2.2 , and MOM 2.2–2.6 , but did not affect MOM > 2.6 . About 82.9–86.1% soil OC was retained by MOM 1.8–2.2 and MOM 2.2–2.6 dominated with iron (Fe) and aluminum oxides and phyllosilicates, in which HF-dissolved OC was significantly positively correlated with poorly crystalline (Fe o ) ( R 2 = 0.61, P < 0.01) and organically complexed (Fe p ) Fe contents ( R 2 = 0.45, P < 0.05). Moreover, the Fe o and Fe p contents were higher in M than in CK ( P < 0.05), and significantly negatively correlated with the reduction of aromatic C (M had more reduction than CK) following HF demineralization in MOM 1.8–2.2 and MOM 2.2–2.6 ( P < 0.05), indicating Fe bound OC was mainly aromatic C. The quartz and feldspar-dominated MOM > 2.6 was composed of aromatic C, amide N, and polysaccharides, not being affected by fertilization. Conclusions Our results suggested that manure fertilization promotes organo-mineral association, particularly for aromatic compound-Fe complexes, contributing to OC preservation in red soils.
AbstractList	Purpose This study was aimed at evaluating the effect of manure fertilization on organo-mineral complexes based on unfertilized (CK) and 5-year manure fertilization (M) in red soils (ultisols). Materials and methods Sequential density fractionation was adopted to obtain particular organic matter (POM, < 1.8 g cm −3 ) and mineral-associated organic matter (1.8–2.2 g cm −3 (MOM 1.8–2.2 ); 2.2–2.6 (MOM 2.2–2.6 ); > 2.6 (MOM > 2.6 )), which were demineralized by hydrofluoric acid (HF). The HF-dissolved organic carbon (OC) was identified as mineral bound OC, and was characterized by comparing the band area of Fourier transform infrared spectroscopy before and after 10% HF demineralization. Results and discussion Manure fertilization significantly increased the OC and nitrogen contents of bulk soil, POM, MOM 1.8–2.2 , and MOM 2.2–2.6 , but did not affect MOM > 2.6 . About 82.9–86.1% soil OC was retained by MOM 1.8–2.2 and MOM 2.2–2.6 dominated with iron (Fe) and aluminum oxides and phyllosilicates, in which HF-dissolved OC was significantly positively correlated with poorly crystalline (Fe o ) ( R 2 = 0.61, P < 0.01) and organically complexed (Fe p ) Fe contents ( R 2 = 0.45, P < 0.05). Moreover, the Fe o and Fe p contents were higher in M than in CK ( P < 0.05), and significantly negatively correlated with the reduction of aromatic C (M had more reduction than CK) following HF demineralization in MOM 1.8–2.2 and MOM 2.2–2.6 ( P < 0.05), indicating Fe bound OC was mainly aromatic C. The quartz and feldspar-dominated MOM > 2.6 was composed of aromatic C, amide N, and polysaccharides, not being affected by fertilization. Conclusions Our results suggested that manure fertilization promotes organo-mineral association, particularly for aromatic compound-Fe complexes, contributing to OC preservation in red soils. PURPOSE: This study was aimed at evaluating the effect of manure fertilization on organo-mineral complexes based on unfertilized (CK) and 5-year manure fertilization (M) in red soils (ultisols). MATERIALS AND METHODS: Sequential density fractionation was adopted to obtain particular organic matter (POM, < 1.8 g cm⁻³) and mineral-associated organic matter (1.8–2.2 g cm⁻³ (MOM₁.₈–₂.₂); 2.2–2.6 (MOM₂.₂–₂.₆); > 2.6 (MOM> ₂.₆)), which were demineralized by hydrofluoric acid (HF). The HF-dissolved organic carbon (OC) was identified as mineral bound OC, and was characterized by comparing the band area of Fourier transform infrared spectroscopy before and after 10% HF demineralization. RESULTS AND DISCUSSION: Manure fertilization significantly increased the OC and nitrogen contents of bulk soil, POM, MOM₁.₈–₂.₂, and MOM₂.₂–₂.₆, but did not affect MOM> ₂.₆. About 82.9–86.1% soil OC was retained by MOM₁.₈–₂.₂ and MOM₂.₂–₂.₆ dominated with iron (Fe) and aluminum oxides and phyllosilicates, in which HF-dissolved OC was significantly positively correlated with poorly crystalline (Feₒ) (R² = 0.61, P < 0.01) and organically complexed (Feₚ) Fe contents (R² = 0.45, P < 0.05). Moreover, the Feₒ and Feₚ contents were higher in M than in CK (P < 0.05), and significantly negatively correlated with the reduction of aromatic C (M had more reduction than CK) following HF demineralization in MOM₁.₈–₂.₂ and MOM₂.₂–₂.₆ (P < 0.05), indicating Fe bound OC was mainly aromatic C. The quartz and feldspar-dominated MOM> ₂.₆ was composed of aromatic C, amide N, and polysaccharides, not being affected by fertilization. CONCLUSIONS: Our results suggested that manure fertilization promotes organo-mineral association, particularly for aromatic compound-Fe complexes, contributing to OC preservation in red soils. PurposeThis study was aimed at evaluating the effect of manure fertilization on organo-mineral complexes based on unfertilized (CK) and 5-year manure fertilization (M) in red soils (ultisols).Materials and methodsSequential density fractionation was adopted to obtain particular organic matter (POM, < 1.8 g cm−3) and mineral-associated organic matter (1.8–2.2 g cm−3 (MOM1.8–2.2); 2.2–2.6 (MOM2.2–2.6); > 2.6 (MOM> 2.6)), which were demineralized by hydrofluoric acid (HF). The HF-dissolved organic carbon (OC) was identified as mineral bound OC, and was characterized by comparing the band area of Fourier transform infrared spectroscopy before and after 10% HF demineralization.Results and discussionManure fertilization significantly increased the OC and nitrogen contents of bulk soil, POM, MOM1.8–2.2, and MOM2.2–2.6, but did not affect MOM> 2.6. About 82.9–86.1% soil OC was retained by MOM1.8–2.2 and MOM2.2–2.6 dominated with iron (Fe) and aluminum oxides and phyllosilicates, in which HF-dissolved OC was significantly positively correlated with poorly crystalline (Feo) (R2 = 0.61, P < 0.01) and organically complexed (Fep) Fe contents (R2 = 0.45, P < 0.05). Moreover, the Feo and Fep contents were higher in M than in CK (P < 0.05), and significantly negatively correlated with the reduction of aromatic C (M had more reduction than CK) following HF demineralization in MOM1.8–2.2 and MOM2.2–2.6 (P < 0.05), indicating Fe bound OC was mainly aromatic C. The quartz and feldspar-dominated MOM> 2.6 was composed of aromatic C, amide N, and polysaccharides, not being affected by fertilization.ConclusionsOur results suggested that manure fertilization promotes organo-mineral association, particularly for aromatic compound-Fe complexes, contributing to OC preservation in red soils.
Author	Wen, Yunjie Wen, Jiong Bai, Lingyu Wang, Yanan Su, Shiming Wu, Cuixia Zeng, Xibai Wang, Qi
Author_xml	– sequence: 1 givenname: Yunjie surname: Wen fullname: Wen, Yunjie organization: Key Laboratory of Agro-Environment, The Ministry of Agriculture of China/Institute of Environment and Sustainable Development in Agriculture, Chinese Academy of Agricultural Sciences, College of Natural Resources and Environment, Northwest A & F University – sequence: 2 givenname: Jiong surname: Wen fullname: Wen, Jiong organization: Yueyang Agricultural Environment Scientific Experiment Station, Ministry of Agriculture – sequence: 3 givenname: Qi surname: Wang fullname: Wang, Qi organization: College of Natural Resources and Environment, Northwest A & F University – sequence: 4 givenname: Lingyu surname: Bai fullname: Bai, Lingyu organization: Key Laboratory of Agro-Environment, The Ministry of Agriculture of China/Institute of Environment and Sustainable Development in Agriculture, Chinese Academy of Agricultural Sciences, College of Natural Resources and Environment, Northwest A & F University – sequence: 5 givenname: Yanan surname: Wang fullname: Wang, Yanan organization: Key Laboratory of Agro-Environment, The Ministry of Agriculture of China/Institute of Environment and Sustainable Development in Agriculture, Chinese Academy of Agricultural Sciences, Yueyang Agricultural Environment Scientific Experiment Station, Ministry of Agriculture – sequence: 6 givenname: Shiming surname: Su fullname: Su, Shiming organization: Key Laboratory of Agro-Environment, The Ministry of Agriculture of China/Institute of Environment and Sustainable Development in Agriculture, Chinese Academy of Agricultural Sciences, Yueyang Agricultural Environment Scientific Experiment Station, Ministry of Agriculture – sequence: 7 givenname: Cuixia surname: Wu fullname: Wu, Cuixia organization: Key Laboratory of Agro-Environment, The Ministry of Agriculture of China/Institute of Environment and Sustainable Development in Agriculture, Chinese Academy of Agricultural Sciences, Yueyang Agricultural Environment Scientific Experiment Station, Ministry of Agriculture – sequence: 8 givenname: Xibai orcidid: 0000-0002-6510-9213 surname: Zeng fullname: Zeng, Xibai email: zengxibai@caas.cn organization: Key Laboratory of Agro-Environment, The Ministry of Agriculture of China/Institute of Environment and Sustainable Development in Agriculture, Chinese Academy of Agricultural Sciences, Yueyang Agricultural Environment Scientific Experiment Station, Ministry of Agriculture
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CitedBy_id	crossref_primary_10_1016_j_catena_2023_106937 crossref_primary_10_1007_s42729_021_00733_4 crossref_primary_10_1016_j_pedsph_2022_11_007 crossref_primary_10_1080_00103624_2024_2303095
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Snippet	Purpose This study was aimed at evaluating the effect of manure fertilization on organo-mineral complexes based on unfertilized (CK) and 5-year manure... PurposeThis study was aimed at evaluating the effect of manure fertilization on organo-mineral complexes based on unfertilized (CK) and 5-year manure... PURPOSE: This study was aimed at evaluating the effect of manure fertilization on organo-mineral complexes based on unfertilized (CK) and 5-year manure...
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SubjectTerms	Aluminium Aluminum Aluminum oxide Analytical methods Aromatic compounds Biological fertilization Coordination compounds Demineralization Demineralizing Dissolved organic carbon Earth and Environmental Science Environment Environmental Physics Farmyard manure Feldspars Fertilization Fourier transform infrared spectroscopy Fourier transforms Fractionation Hafnium Hydrofluoric acid Infrared spectroscopy Iron Manures Nitrogen organic carbon Organic matter Oxides Polysaccharides Preservation quartz Reduction Saccharides Sec 3 • Remediation and Management of Contaminated or Degraded Lands • Research Article Soil Soil Science & Conservation Soils
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Title	Organic carbon preservation promoted by aromatic compound-iron complexes through manure fertilization in red soil
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