D. Liptzin, E. Rieke, S. Cappellazzi, G. Bean, Michael Cope, K. Greub, C. Norris, P. Tracy, E. Aberle, A. Ashworth, Oscar Bañuelos Tavarez, A. Bary, R. Baumhardt, Alberto Borbón Gracia, D. Brainard, J. Brennan, D. Reyes, D. Bruhjell, C. Carlyle, James J. W. Crawford, C. Creech, S. Culman, B. Deen, C. Dell, J. Derner, T. Ducey, S. Duiker, R. Dungan, M. Dyck, B. Ellert, M. Entz, Avelino Espinosa Solorio, S. Fonte, S. Fonteyne, A. Fortuna, J. Foster, L. Fultz, A. Gamble, C. Geddes, Deirdre Griffin‐LaHue, J. Grove, S. Hamilton, X. Hao, Z. Hayden, Nora Honsdorf, J. Howe, J. Ippolito, G. Johnson, Mark A. Kautz, N. Kitchen, Sandeep Kumar, K. Kurtz, F. Larney, Katie L. Lewis, M. Liebman, A. L. Ramirez, S. Machado, B. Maharjan, Miguel Angel Martinez Gamiño, W. May, M. McClaran, M. McDaniel, N. Millar, J. Mitchell, A. Moore, P. Moore, Manuel Mora Gutiérrez, K. Nelson, E. Omondi, S. Osborne, L. O. Alcalá, P. Owens, E. Pena‐Yewtukhiw, Hanna J. Poffenbarger, Brenda Ponce Lira, J. Reeve, T. Reinbott, M. Reiter, E. Ritc
{"title":"长期农业试验中土壤健康氮指标的评价","authors":"D. Liptzin, E. Rieke, S. Cappellazzi, G. Bean, Michael Cope, K. Greub, C. Norris, P. Tracy, E. Aberle, A. Ashworth, Oscar Bañuelos Tavarez, A. Bary, R. Baumhardt, Alberto Borbón Gracia, D. Brainard, J. Brennan, D. Reyes, D. Bruhjell, C. Carlyle, James J. W. Crawford, C. Creech, S. Culman, B. Deen, C. Dell, J. Derner, T. Ducey, S. Duiker, R. Dungan, M. Dyck, B. Ellert, M. Entz, Avelino Espinosa Solorio, S. Fonte, S. Fonteyne, A. Fortuna, J. Foster, L. Fultz, A. Gamble, C. Geddes, Deirdre Griffin‐LaHue, J. Grove, S. Hamilton, X. Hao, Z. Hayden, Nora Honsdorf, J. Howe, J. Ippolito, G. Johnson, Mark A. Kautz, N. Kitchen, Sandeep Kumar, K. Kurtz, F. Larney, Katie L. Lewis, M. Liebman, A. L. Ramirez, S. Machado, B. Maharjan, Miguel Angel Martinez Gamiño, W. May, M. McClaran, M. McDaniel, N. Millar, J. Mitchell, A. Moore, P. Moore, Manuel Mora Gutiérrez, K. Nelson, E. Omondi, S. Osborne, L. O. Alcalá, P. Owens, E. Pena‐Yewtukhiw, Hanna J. Poffenbarger, Brenda Ponce Lira, J. Reeve, T. Reinbott, M. Reiter, E. Ritc","doi":"10.1002/saj2.20558","DOIUrl":null,"url":null,"abstract":"Various soil health indicators that measure a chemically defined fraction of nitrogen (N) or a process related to N cycling have been proposed to quantify the potential to supply N to crops, a key soil function. We evaluated five N indicators (total soil N, autoclavable citrate extractable N, water-extractable organic N, potentially miner-alizable N, and N -acetyl- β - D -glucosaminidase activity) at 124 sites with long-term experiments across North America evaluating a variety of managements. We found that 59%–81% of the variation in N indicators was among sites, with indicator values decreasing with temperature and increasing with precipitation and clay content. The N indicators increased from 6%–39% in response to decreasing tillage, cover cropping, retaining residue, and applying organic sources of nutrients. Overall, increasing the quantity of organic inputs, whether from increased residue retention, cover cropping, or rotations with higher biomass, resulted in higher values of the N indicators. Although N indicators responded to management in similar ways, the analysis cost and availability of testing laboratories is highly variable. Further, given the strong relationships of the N indicators with carbon (C) indicators, measuring soil organic C along with 24-h potential C mineralization could be used as a proxy","PeriodicalId":22142,"journal":{"name":"Soil Science Society of America Journal","volume":" ","pages":""},"PeriodicalIF":2.4000,"publicationDate":"2023-05-23","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"3","resultStr":"{\"title\":\"An evaluation of nitrogen indicators for soil health in long‐term agricultural experiments\",\"authors\":\"D. Liptzin, E. Rieke, S. Cappellazzi, G. Bean, Michael Cope, K. Greub, C. Norris, P. Tracy, E. Aberle, A. Ashworth, Oscar Bañuelos Tavarez, A. Bary, R. Baumhardt, Alberto Borbón Gracia, D. Brainard, J. Brennan, D. Reyes, D. Bruhjell, C. Carlyle, James J. W. Crawford, C. Creech, S. Culman, B. Deen, C. Dell, J. Derner, T. Ducey, S. Duiker, R. Dungan, M. Dyck, B. Ellert, M. Entz, Avelino Espinosa Solorio, S. Fonte, S. Fonteyne, A. Fortuna, J. Foster, L. Fultz, A. Gamble, C. Geddes, Deirdre Griffin‐LaHue, J. Grove, S. Hamilton, X. Hao, Z. Hayden, Nora Honsdorf, J. Howe, J. Ippolito, G. Johnson, Mark A. Kautz, N. Kitchen, Sandeep Kumar, K. Kurtz, F. Larney, Katie L. Lewis, M. Liebman, A. L. Ramirez, S. Machado, B. Maharjan, Miguel Angel Martinez Gamiño, W. May, M. McClaran, M. McDaniel, N. Millar, J. Mitchell, A. Moore, P. Moore, Manuel Mora Gutiérrez, K. Nelson, E. Omondi, S. Osborne, L. O. Alcalá, P. Owens, E. Pena‐Yewtukhiw, Hanna J. Poffenbarger, Brenda Ponce Lira, J. Reeve, T. Reinbott, M. Reiter, E. 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Overall, increasing the quantity of organic inputs, whether from increased residue retention, cover cropping, or rotations with higher biomass, resulted in higher values of the N indicators. Although N indicators responded to management in similar ways, the analysis cost and availability of testing laboratories is highly variable. 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An evaluation of nitrogen indicators for soil health in long‐term agricultural experiments
Various soil health indicators that measure a chemically defined fraction of nitrogen (N) or a process related to N cycling have been proposed to quantify the potential to supply N to crops, a key soil function. We evaluated five N indicators (total soil N, autoclavable citrate extractable N, water-extractable organic N, potentially miner-alizable N, and N -acetyl- β - D -glucosaminidase activity) at 124 sites with long-term experiments across North America evaluating a variety of managements. We found that 59%–81% of the variation in N indicators was among sites, with indicator values decreasing with temperature and increasing with precipitation and clay content. The N indicators increased from 6%–39% in response to decreasing tillage, cover cropping, retaining residue, and applying organic sources of nutrients. Overall, increasing the quantity of organic inputs, whether from increased residue retention, cover cropping, or rotations with higher biomass, resulted in higher values of the N indicators. Although N indicators responded to management in similar ways, the analysis cost and availability of testing laboratories is highly variable. Further, given the strong relationships of the N indicators with carbon (C) indicators, measuring soil organic C along with 24-h potential C mineralization could be used as a proxy
期刊介绍:
SSSA Journal publishes content on soil physics; hydrology; soil chemistry; soil biology; soil biochemistry; soil fertility; plant nutrition; pedology; soil and water conservation and management; forest, range, and wildland soils; soil and plant analysis; soil mineralogy, wetland soils. The audience is researchers, students, soil scientists, hydrologists, pedologist, geologists, agronomists, arborists, ecologists, engineers, certified practitioners, soil microbiologists, and environmentalists.
The journal publishes original research, issue papers, reviews, notes, comments and letters to the editor, and book reviews. Invitational papers may be published in the journal if accepted by the editorial board.
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