Linking soil microbial community structure to potential carbon mineralization: A continental scale assessment of reduced tillage
Potential carbon mineralization (Cmin) is a commonly used indicator of soil health, with greater Cmin values interpreted as healthier soil. While Cmin values are typically greater in agricultural soils managed with minimal physical disturbance, the mechanisms driving the increases remain poorly understood. This study assessed bacterial and archaeal community structure and potential microbial drivers of Cmin in soils maintained under various degrees of physical disturbance. Potential carbon mineralization, 16S rRNA sequences, and soil characterization data were collected as part of the North American Project to Evaluate Soil Health Measurements (NAPESHM). Results showed that type of cropping system, intensity of physical disturbance, and soil pH influenced microbial sensitivity to physical disturbance. Furthermore, 28% of amplicon sequence variants (ASVs), which were important in modeling Cmin, were enriched under soils managed with minimal physical disturbance. Sequences identified as enriched under minimal disturbance and important for modeling Cmin, were linked to organisms which could produce extracellular polymeric substances and contained metabolic strategies suited for tolerating environmental stressors. Understanding how physical disturbance shapes microbial communities across climates and inherent soil properties and drives changes in Cmin provides the context necessary to evaluate management impacts on standardized measures of soil microbial activity.
Main Authors: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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Format: | Article biblioteca |
Language: | English |
Published: |
Elsevier
2022
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Subjects: | AGRICULTURAL SCIENCES AND BIOTECHNOLOGY, Microbial Community, Potential Carbon Mineralization, Soil Health, AGRICULTURE, CARBON, HEALTH, MICRO-ORGANISMS, MINERALOGY, RNA, AGRICULTURAL SOILS, CARBON MINERALIZATION, TILLAGE, SOIL QUALITY, |
Online Access: | https://hdl.handle.net/10883/22027 |
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AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Microbial Community Potential Carbon Mineralization Soil Health AGRICULTURE CARBON HEALTH MICRO-ORGANISMS MINERALOGY RNA AGRICULTURAL SOILS CARBON MINERALIZATION TILLAGE SOIL QUALITY AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Microbial Community Potential Carbon Mineralization Soil Health AGRICULTURE CARBON HEALTH MICRO-ORGANISMS MINERALOGY RNA AGRICULTURAL SOILS CARBON MINERALIZATION TILLAGE SOIL QUALITY |
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AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Microbial Community Potential Carbon Mineralization Soil Health AGRICULTURE CARBON HEALTH MICRO-ORGANISMS MINERALOGY RNA AGRICULTURAL SOILS CARBON MINERALIZATION TILLAGE SOIL QUALITY AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Microbial Community Potential Carbon Mineralization Soil Health AGRICULTURE CARBON HEALTH MICRO-ORGANISMS MINERALOGY RNA AGRICULTURAL SOILS CARBON MINERALIZATION TILLAGE SOIL QUALITY Rieke, E.L. Cappellazzi, S.B. Cope, M. Liptzin, D. Mac Bean, G. Greub, K.L.H. Norris, C.E. Tracy, P.W. Aberle, E. Ashworth, A. Bañuelos, O. Bary, A.I. Baumhardt, R.L. Borbón Gracia, A. Brainard, D.C. Brennan, J.R. Briones Reyes, D. Bruhjell, D. Carlyle, C.N. Crawford, J.J.W. Creech, C.F. Culman, S.W. Deen, B. Dell, C.J. Derner, J.D. Ducey, T.F. Duiker, S.W. Dyck, M.F. Ellert, B. Espinosa Solorio, A. Fonte, S.J. Fonteyne, S. Fortuna, A.M. Foster, J.L. Fultz, L.M. Gamble, A.V. Geddes, C.M. Griffin-LaHue, D. Grove, J.H. Hamilton, S.K. Xiying Hao Hayden, Z.D. Honsdorf, N. Howe, J.A. Ippolito, J.A. Johnson, G.A. Kautz, M.A. Kitchen, N.R. Sandeep Kumar Kurtz, S. Larney, F.J. Lewis, K.L. Liebman, M. López Ramírez, A. Machado, S. Maharjan, B. Martinez Gamiño, M.A. May, W.E. McClaran, M.P. McDaniel, M.D. Millar, N. Mitchell, J.P. Moore, A.D. Moore Jr., P.A. Mora Gutiérrez, M. Nelson, K.A. Omondi, E.C. Osborne, S.L. Osorio Alcalá, L. Owens, P. Pena-Yewtukhiw, E.M. Poffenbarger, H.J. Ponce Lira, B. Reeve, J.R. Reinbott, T.M. Reiter, M.S. Ritchey, E.L. Roozeboom, K.L. Yichao Rui Sadeghpour, A. Sainju, U.M. Sanford, G.R. Schillinger, W.F. Schindelbeck, R.R. Schipanski, M. Schlegel, A. Scow, K.M. Sherrod, L.A. Shober, A.L. Sidhu, S.S. Solís Moya, E. St. Luce, M. Strock, J.S. Suyker, A.E. Sykes, V.R. Haiying Tao Trujillo Campos, A. Van Eerd, L.L. Verhulst, N. Vyn, T.J. Yutao Wang Watts, D.B. William, B.B. Wright, D.L. Tiequan Zhang Morgan, C.L.S. Honeycutt, C.W. Linking soil microbial community structure to potential carbon mineralization: A continental scale assessment of reduced tillage |
description |
Potential carbon mineralization (Cmin) is a commonly used indicator of soil health, with greater Cmin values interpreted as healthier soil. While Cmin values are typically greater in agricultural soils managed with minimal physical disturbance, the mechanisms driving the increases remain poorly understood. This study assessed bacterial and archaeal community structure and potential microbial drivers of Cmin in soils maintained under various degrees of physical disturbance. Potential carbon mineralization, 16S rRNA sequences, and soil characterization data were collected as part of the North American Project to Evaluate Soil Health Measurements (NAPESHM). Results showed that type of cropping system, intensity of physical disturbance, and soil pH influenced microbial sensitivity to physical disturbance. Furthermore, 28% of amplicon sequence variants (ASVs), which were important in modeling Cmin, were enriched under soils managed with minimal physical disturbance. Sequences identified as enriched under minimal disturbance and important for modeling Cmin, were linked to organisms which could produce extracellular polymeric substances and contained metabolic strategies suited for tolerating environmental stressors. Understanding how physical disturbance shapes microbial communities across climates and inherent soil properties and drives changes in Cmin provides the context necessary to evaluate management impacts on standardized measures of soil microbial activity. |
format |
Article |
topic_facet |
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Microbial Community Potential Carbon Mineralization Soil Health AGRICULTURE CARBON HEALTH MICRO-ORGANISMS MINERALOGY RNA AGRICULTURAL SOILS CARBON MINERALIZATION TILLAGE SOIL QUALITY |
author |
Rieke, E.L. Cappellazzi, S.B. Cope, M. Liptzin, D. Mac Bean, G. Greub, K.L.H. Norris, C.E. Tracy, P.W. Aberle, E. Ashworth, A. Bañuelos, O. Bary, A.I. Baumhardt, R.L. Borbón Gracia, A. Brainard, D.C. Brennan, J.R. Briones Reyes, D. Bruhjell, D. Carlyle, C.N. Crawford, J.J.W. Creech, C.F. Culman, S.W. Deen, B. Dell, C.J. Derner, J.D. Ducey, T.F. Duiker, S.W. Dyck, M.F. Ellert, B. Espinosa Solorio, A. Fonte, S.J. Fonteyne, S. Fortuna, A.M. Foster, J.L. Fultz, L.M. Gamble, A.V. Geddes, C.M. Griffin-LaHue, D. Grove, J.H. Hamilton, S.K. Xiying Hao Hayden, Z.D. Honsdorf, N. Howe, J.A. Ippolito, J.A. Johnson, G.A. Kautz, M.A. Kitchen, N.R. Sandeep Kumar Kurtz, S. Larney, F.J. Lewis, K.L. Liebman, M. López Ramírez, A. Machado, S. Maharjan, B. Martinez Gamiño, M.A. May, W.E. McClaran, M.P. McDaniel, M.D. Millar, N. Mitchell, J.P. Moore, A.D. Moore Jr., P.A. Mora Gutiérrez, M. Nelson, K.A. Omondi, E.C. Osborne, S.L. Osorio Alcalá, L. Owens, P. Pena-Yewtukhiw, E.M. Poffenbarger, H.J. Ponce Lira, B. Reeve, J.R. Reinbott, T.M. Reiter, M.S. Ritchey, E.L. Roozeboom, K.L. Yichao Rui Sadeghpour, A. Sainju, U.M. Sanford, G.R. Schillinger, W.F. Schindelbeck, R.R. Schipanski, M. Schlegel, A. Scow, K.M. Sherrod, L.A. Shober, A.L. Sidhu, S.S. Solís Moya, E. St. Luce, M. Strock, J.S. Suyker, A.E. Sykes, V.R. Haiying Tao Trujillo Campos, A. Van Eerd, L.L. Verhulst, N. Vyn, T.J. Yutao Wang Watts, D.B. William, B.B. Wright, D.L. Tiequan Zhang Morgan, C.L.S. Honeycutt, C.W. |
author_facet |
Rieke, E.L. Cappellazzi, S.B. Cope, M. Liptzin, D. Mac Bean, G. Greub, K.L.H. Norris, C.E. Tracy, P.W. Aberle, E. Ashworth, A. Bañuelos, O. Bary, A.I. Baumhardt, R.L. Borbón Gracia, A. Brainard, D.C. Brennan, J.R. Briones Reyes, D. Bruhjell, D. Carlyle, C.N. Crawford, J.J.W. Creech, C.F. Culman, S.W. Deen, B. Dell, C.J. Derner, J.D. Ducey, T.F. Duiker, S.W. Dyck, M.F. Ellert, B. Espinosa Solorio, A. Fonte, S.J. Fonteyne, S. Fortuna, A.M. Foster, J.L. Fultz, L.M. Gamble, A.V. Geddes, C.M. Griffin-LaHue, D. Grove, J.H. Hamilton, S.K. Xiying Hao Hayden, Z.D. Honsdorf, N. Howe, J.A. Ippolito, J.A. Johnson, G.A. Kautz, M.A. Kitchen, N.R. Sandeep Kumar Kurtz, S. Larney, F.J. Lewis, K.L. Liebman, M. López Ramírez, A. Machado, S. Maharjan, B. Martinez Gamiño, M.A. May, W.E. McClaran, M.P. McDaniel, M.D. Millar, N. Mitchell, J.P. Moore, A.D. Moore Jr., P.A. Mora Gutiérrez, M. Nelson, K.A. Omondi, E.C. Osborne, S.L. Osorio Alcalá, L. Owens, P. Pena-Yewtukhiw, E.M. Poffenbarger, H.J. Ponce Lira, B. Reeve, J.R. Reinbott, T.M. Reiter, M.S. Ritchey, E.L. Roozeboom, K.L. Yichao Rui Sadeghpour, A. Sainju, U.M. Sanford, G.R. Schillinger, W.F. Schindelbeck, R.R. Schipanski, M. Schlegel, A. Scow, K.M. Sherrod, L.A. Shober, A.L. Sidhu, S.S. Solís Moya, E. St. Luce, M. Strock, J.S. Suyker, A.E. Sykes, V.R. Haiying Tao Trujillo Campos, A. Van Eerd, L.L. Verhulst, N. Vyn, T.J. Yutao Wang Watts, D.B. William, B.B. Wright, D.L. Tiequan Zhang Morgan, C.L.S. Honeycutt, C.W. |
author_sort |
Rieke, E.L. |
title |
Linking soil microbial community structure to potential carbon mineralization: A continental scale assessment of reduced tillage |
title_short |
Linking soil microbial community structure to potential carbon mineralization: A continental scale assessment of reduced tillage |
title_full |
Linking soil microbial community structure to potential carbon mineralization: A continental scale assessment of reduced tillage |
title_fullStr |
Linking soil microbial community structure to potential carbon mineralization: A continental scale assessment of reduced tillage |
title_full_unstemmed |
Linking soil microbial community structure to potential carbon mineralization: A continental scale assessment of reduced tillage |
title_sort |
linking soil microbial community structure to potential carbon mineralization: a continental scale assessment of reduced tillage |
publisher |
Elsevier |
publishDate |
2022 |
url |
https://hdl.handle.net/10883/22027 |
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dig-cimmyt-10883-220272023-11-14T14:16:19Z Linking soil microbial community structure to potential carbon mineralization: A continental scale assessment of reduced tillage Rieke, E.L. Cappellazzi, S.B. Cope, M. Liptzin, D. Mac Bean, G. Greub, K.L.H. Norris, C.E. Tracy, P.W. Aberle, E. Ashworth, A. Bañuelos, O. Bary, A.I. Baumhardt, R.L. Borbón Gracia, A. Brainard, D.C. Brennan, J.R. Briones Reyes, D. Bruhjell, D. Carlyle, C.N. Crawford, J.J.W. Creech, C.F. Culman, S.W. Deen, B. Dell, C.J. Derner, J.D. Ducey, T.F. Duiker, S.W. Dyck, M.F. Ellert, B. Espinosa Solorio, A. Fonte, S.J. Fonteyne, S. Fortuna, A.M. Foster, J.L. Fultz, L.M. Gamble, A.V. Geddes, C.M. Griffin-LaHue, D. Grove, J.H. Hamilton, S.K. Xiying Hao Hayden, Z.D. Honsdorf, N. Howe, J.A. Ippolito, J.A. Johnson, G.A. Kautz, M.A. Kitchen, N.R. Sandeep Kumar Kurtz, S. Larney, F.J. Lewis, K.L. Liebman, M. López Ramírez, A. Machado, S. Maharjan, B. Martinez Gamiño, M.A. May, W.E. McClaran, M.P. McDaniel, M.D. Millar, N. Mitchell, J.P. Moore, A.D. Moore Jr., P.A. Mora Gutiérrez, M. Nelson, K.A. Omondi, E.C. Osborne, S.L. Osorio Alcalá, L. Owens, P. Pena-Yewtukhiw, E.M. Poffenbarger, H.J. Ponce Lira, B. Reeve, J.R. Reinbott, T.M. Reiter, M.S. Ritchey, E.L. Roozeboom, K.L. Yichao Rui Sadeghpour, A. Sainju, U.M. Sanford, G.R. Schillinger, W.F. Schindelbeck, R.R. Schipanski, M. Schlegel, A. Scow, K.M. Sherrod, L.A. Shober, A.L. Sidhu, S.S. Solís Moya, E. St. Luce, M. Strock, J.S. Suyker, A.E. Sykes, V.R. Haiying Tao Trujillo Campos, A. Van Eerd, L.L. Verhulst, N. Vyn, T.J. Yutao Wang Watts, D.B. William, B.B. Wright, D.L. Tiequan Zhang Morgan, C.L.S. Honeycutt, C.W. AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Microbial Community Potential Carbon Mineralization Soil Health AGRICULTURE CARBON HEALTH MICRO-ORGANISMS MINERALOGY RNA AGRICULTURAL SOILS CARBON MINERALIZATION TILLAGE SOIL QUALITY Potential carbon mineralization (Cmin) is a commonly used indicator of soil health, with greater Cmin values interpreted as healthier soil. While Cmin values are typically greater in agricultural soils managed with minimal physical disturbance, the mechanisms driving the increases remain poorly understood. This study assessed bacterial and archaeal community structure and potential microbial drivers of Cmin in soils maintained under various degrees of physical disturbance. Potential carbon mineralization, 16S rRNA sequences, and soil characterization data were collected as part of the North American Project to Evaluate Soil Health Measurements (NAPESHM). Results showed that type of cropping system, intensity of physical disturbance, and soil pH influenced microbial sensitivity to physical disturbance. Furthermore, 28% of amplicon sequence variants (ASVs), which were important in modeling Cmin, were enriched under soils managed with minimal physical disturbance. Sequences identified as enriched under minimal disturbance and important for modeling Cmin, were linked to organisms which could produce extracellular polymeric substances and contained metabolic strategies suited for tolerating environmental stressors. Understanding how physical disturbance shapes microbial communities across climates and inherent soil properties and drives changes in Cmin provides the context necessary to evaluate management impacts on standardized measures of soil microbial activity. 2022-03-25T01:30:17Z 2022-03-25T01:30:17Z 2022 Article Published Version https://hdl.handle.net/10883/22027 10.1016/j.soilbio.2022.108618 English https://www.sciencedirect.com/science/article/pii/S003807172200075X?via%3Dihub#appsec1 CIMMYT manages Intellectual Assets as International Public Goods. The user is free to download, print, store and share this work. In case you want to translate or create any other derivative work and share or distribute such translation/derivative work, please contact CIMMYT-Knowledge-Center@cgiar.org indicating the work you want to use and the kind of use you intend; CIMMYT will contact you with the suitable license for that purpose Open Access United Kingdom Elsevier 168 0038-0717 Soil Biology and Biochemistry 108618 |