Stacey M. Trevathan-Tackett, Sebastian Kepfer-Rojas, Martino Malerba, Peter I. Macreadie, Ika Djukic, Junbin Zhao, Erica B. Young, Paul H. York, Shin-Cheng Yeh, Yanmei Xiong, Gidon Winters, Danielle Whitlock, Carolyn A. Weaver, Anne Watson, Inger Visby, Jacek Tylkowski, Allison Trethowan, Scott Tiegs, Ben Taylor, Jozef Szpikowski, Grażyna Szpikowska, Victoria L. Strickland, Normunds Stivrins, Ana I. Sousa, Sutinee Sinutok, Whitney A. Scheffel, Rui Santos, Jonathan Sanderman, Salvador Sánchez-Carrillo, Joan-Albert Sanchez-Cabeza, Krzysztof G. Rymer, Ana Carolina Ruiz-Fernandez, Bjorn J. M. Robroek, Tessa Roberts, Aurora M. Ricart, Laura K. Reynolds, Grzegorz Rachlewicz, Anchana Prathep, Andrew J. Pinsonneault, Elise Pendall, Richard Payne, Ilze Ozola, Cody Onufrock, Anne Ola, Steven F. Oberbauer, Aroloye O. Numbere, Alyssa B. Novak, Joanna Norkko, Alf Norkko, Thomas J. Mozdzer, Pam Morgan, Diana I. Montemayor, Charles W. Martin, Sparkle L. Malone, Maciej Major, Mikołaj Majewski, Carolyn J. Lundquist, Catherine E. Lovelock, Songlin Liu, Hsing-Juh Lin, Ana Lillebo, Jinquan Li, John S. Kominoski, Anzar Ahmad Khuroo, Jeffrey J. Kelleway, Kristin I. Jinks, Daniel Jerónimo, Christopher Janousek, Emma L. Jackson, Oscar Iribarne, Torrance Hanley, Maroof Hamid, Arjun Gupta, Rafael D. Guariento, Ieva Grudzinska, Anderson da Rocha Gripp, María A. González Sagrario, Laura M. Garrison, Karine Gagnon, Esperança Gacia, Marco Fusi, Lachlan Farrington, Jenny Farmer, Francisco de Assis Esteves, Mauricio Escapa, Monika Domańska, André T. C. Dias, Carmen B. de los Santos, Daniele Daffonchio, Paweł M. Czyryca, Rod M. Connolly, Alexander Cobb, Maria Chudzińska, Bart Christiaen, Peter Chifflard, Sara Castelar, Luciana S. Carneiro, José Gilberto Cardoso-Mohedano, Megan Camden, Adriano Caliman, Richard H. Bulmer, Jennifer Bowen, Christoffer Boström, Susana Bernal, John A. Berges, Juan C. Benavides, Savanna C. Barry, Juha M. Alatalo, Alia N. Al-Haj, Maria Fernanda Adame
{"title":"气候对全球湿地地下茶叶垃圾分解的影响取决于生态系统和有机物质类型","authors":"Stacey M. Trevathan-Tackett, Sebastian Kepfer-Rojas, Martino Malerba, Peter I. Macreadie, Ika Djukic, Junbin Zhao, Erica B. Young, Paul H. York, Shin-Cheng Yeh, Yanmei Xiong, Gidon Winters, Danielle Whitlock, Carolyn A. Weaver, Anne Watson, Inger Visby, Jacek Tylkowski, Allison Trethowan, Scott Tiegs, Ben Taylor, Jozef Szpikowski, Grażyna Szpikowska, Victoria L. Strickland, Normunds Stivrins, Ana I. Sousa, Sutinee Sinutok, Whitney A. Scheffel, Rui Santos, Jonathan Sanderman, Salvador Sánchez-Carrillo, Joan-Albert Sanchez-Cabeza, Krzysztof G. Rymer, Ana Carolina Ruiz-Fernandez, Bjorn J. M. Robroek, Tessa Roberts, Aurora M. Ricart, Laura K. Reynolds, Grzegorz Rachlewicz, Anchana Prathep, Andrew J. Pinsonneault, Elise Pendall, Richard Payne, Ilze Ozola, Cody Onufrock, Anne Ola, Steven F. Oberbauer, Aroloye O. Numbere, Alyssa B. Novak, Joanna Norkko, Alf Norkko, Thomas J. Mozdzer, Pam Morgan, Diana I. Montemayor, Charles W. Martin, Sparkle L. Malone, Maciej Major, Mikołaj Majewski, Carolyn J. Lundquist, Catherine E. Lovelock, Songlin Liu, Hsing-Juh Lin, Ana Lillebo, Jinquan Li, John S. Kominoski, Anzar Ahmad Khuroo, Jeffrey J. Kelleway, Kristin I. Jinks, Daniel Jerónimo, Christopher Janousek, Emma L. Jackson, Oscar Iribarne, Torrance Hanley, Maroof Hamid, Arjun Gupta, Rafael D. Guariento, Ieva Grudzinska, Anderson da Rocha Gripp, María A. González Sagrario, Laura M. Garrison, Karine Gagnon, Esperança Gacia, Marco Fusi, Lachlan Farrington, Jenny Farmer, Francisco de Assis Esteves, Mauricio Escapa, Monika Domańska, André T. C. Dias, Carmen B. de los Santos, Daniele Daffonchio, Paweł M. Czyryca, Rod M. Connolly, Alexander Cobb, Maria Chudzińska, Bart Christiaen, Peter Chifflard, Sara Castelar, Luciana S. Carneiro, José Gilberto Cardoso-Mohedano, Megan Camden, Adriano Caliman, Richard H. Bulmer, Jennifer Bowen, Christoffer Boström, Susana Bernal, John A. Berges, Juan C. Benavides, Savanna C. Barry, Juha M. Alatalo, Alia N. Al-Haj, Maria Fernanda Adame","doi":"10.1021/acs.est.4c02116","DOIUrl":null,"url":null,"abstract":"Patchy global data on belowground litter decomposition dynamics limit our capacity to discern the drivers of carbon preservation and storage across inland and coastal wetlands. We performed a global, multiyear study in over 180 wetlands across 28 countries and 8 macroclimates using standardized litter as measures of “recalcitrant” (rooibos tea) and “labile” (green tea) organic matter (OM) decomposition. Freshwater wetlands and tidal marshes had the highest tea mass remaining, indicating a greater potential for carbon preservation in these ecosystems. Recalcitrant OM decomposition increased with elevated temperatures throughout the decay period, e.g., increase from 10 to 20 °C corresponded to a 1.46-fold increase in the recalcitrant OM decay rate constant. The effect of elevated temperature on labile OM breakdown was ecosystem-dependent, with tidally influenced wetlands showing limited effects of temperature compared with freshwater wetlands. Based on climatic projections, by 2050 wetland decay constants will increase by 1.8% for labile and 3.1% for recalcitrant OM. Our study highlights the potential for reduction in belowground OM in coastal and inland wetlands under increased warming, but the extent and direction of this effect at a large scale is dependent on ecosystem and OM characteristics. Understanding local versus global drivers is necessary to resolve ecosystem influences on carbon preservation in wetlands.","PeriodicalId":36,"journal":{"name":"环境科学与技术","volume":"32 1","pages":""},"PeriodicalIF":10.8000,"publicationDate":"2024-11-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Climate Effects on Belowground Tea Litter Decomposition Depend on Ecosystem and Organic Matter Types in Global Wetlands\",\"authors\":\"Stacey M. Trevathan-Tackett, Sebastian Kepfer-Rojas, Martino Malerba, Peter I. Macreadie, Ika Djukic, Junbin Zhao, Erica B. Young, Paul H. York, Shin-Cheng Yeh, Yanmei Xiong, Gidon Winters, Danielle Whitlock, Carolyn A. Weaver, Anne Watson, Inger Visby, Jacek Tylkowski, Allison Trethowan, Scott Tiegs, Ben Taylor, Jozef Szpikowski, Grażyna Szpikowska, Victoria L. Strickland, Normunds Stivrins, Ana I. Sousa, Sutinee Sinutok, Whitney A. Scheffel, Rui Santos, Jonathan Sanderman, Salvador Sánchez-Carrillo, Joan-Albert Sanchez-Cabeza, Krzysztof G. Rymer, Ana Carolina Ruiz-Fernandez, Bjorn J. M. Robroek, Tessa Roberts, Aurora M. Ricart, Laura K. Reynolds, Grzegorz Rachlewicz, Anchana Prathep, Andrew J. Pinsonneault, Elise Pendall, Richard Payne, Ilze Ozola, Cody Onufrock, Anne Ola, Steven F. Oberbauer, Aroloye O. Numbere, Alyssa B. Novak, Joanna Norkko, Alf Norkko, Thomas J. Mozdzer, Pam Morgan, Diana I. Montemayor, Charles W. Martin, Sparkle L. Malone, Maciej Major, Mikołaj Majewski, Carolyn J. Lundquist, Catherine E. Lovelock, Songlin Liu, Hsing-Juh Lin, Ana Lillebo, Jinquan Li, John S. Kominoski, Anzar Ahmad Khuroo, Jeffrey J. Kelleway, Kristin I. Jinks, Daniel Jerónimo, Christopher Janousek, Emma L. Jackson, Oscar Iribarne, Torrance Hanley, Maroof Hamid, Arjun Gupta, Rafael D. Guariento, Ieva Grudzinska, Anderson da Rocha Gripp, María A. González Sagrario, Laura M. Garrison, Karine Gagnon, Esperança Gacia, Marco Fusi, Lachlan Farrington, Jenny Farmer, Francisco de Assis Esteves, Mauricio Escapa, Monika Domańska, André T. C. Dias, Carmen B. de los Santos, Daniele Daffonchio, Paweł M. Czyryca, Rod M. Connolly, Alexander Cobb, Maria Chudzińska, Bart Christiaen, Peter Chifflard, Sara Castelar, Luciana S. Carneiro, José Gilberto Cardoso-Mohedano, Megan Camden, Adriano Caliman, Richard H. Bulmer, Jennifer Bowen, Christoffer Boström, Susana Bernal, John A. Berges, Juan C. Benavides, Savanna C. Barry, Juha M. Alatalo, Alia N. Al-Haj, Maria Fernanda Adame\",\"doi\":\"10.1021/acs.est.4c02116\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Patchy global data on belowground litter decomposition dynamics limit our capacity to discern the drivers of carbon preservation and storage across inland and coastal wetlands. We performed a global, multiyear study in over 180 wetlands across 28 countries and 8 macroclimates using standardized litter as measures of “recalcitrant” (rooibos tea) and “labile” (green tea) organic matter (OM) decomposition. Freshwater wetlands and tidal marshes had the highest tea mass remaining, indicating a greater potential for carbon preservation in these ecosystems. Recalcitrant OM decomposition increased with elevated temperatures throughout the decay period, e.g., increase from 10 to 20 °C corresponded to a 1.46-fold increase in the recalcitrant OM decay rate constant. The effect of elevated temperature on labile OM breakdown was ecosystem-dependent, with tidally influenced wetlands showing limited effects of temperature compared with freshwater wetlands. Based on climatic projections, by 2050 wetland decay constants will increase by 1.8% for labile and 3.1% for recalcitrant OM. Our study highlights the potential for reduction in belowground OM in coastal and inland wetlands under increased warming, but the extent and direction of this effect at a large scale is dependent on ecosystem and OM characteristics. Understanding local versus global drivers is necessary to resolve ecosystem influences on carbon preservation in wetlands.\",\"PeriodicalId\":36,\"journal\":{\"name\":\"环境科学与技术\",\"volume\":\"32 1\",\"pages\":\"\"},\"PeriodicalIF\":10.8000,\"publicationDate\":\"2024-11-25\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"环境科学与技术\",\"FirstCategoryId\":\"1\",\"ListUrlMain\":\"https://doi.org/10.1021/acs.est.4c02116\",\"RegionNum\":1,\"RegionCategory\":\"环境科学与生态学\",\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"Q1\",\"JCRName\":\"ENGINEERING, ENVIRONMENTAL\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"环境科学与技术","FirstCategoryId":"1","ListUrlMain":"https://doi.org/10.1021/acs.est.4c02116","RegionNum":1,"RegionCategory":"环境科学与生态学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"ENGINEERING, ENVIRONMENTAL","Score":null,"Total":0}
引用次数: 0
摘要
有关地下废弃物分解动态的全球零散数据限制了我们辨别内陆和沿海湿地碳保存和储存驱动因素的能力。我们在全球 28 个国家和 8 种宏观气候条件下的 180 多处湿地开展了一项为期多年的研究,使用标准化垃圾作为 "难分解"(罗布麻茶)和 "易分解"(绿茶)有机物(OM)分解的衡量标准。淡水湿地和潮汐沼泽的茶叶剩余质量最高,表明这些生态系统具有更大的碳保存潜力。在整个腐烂过程中,随着温度的升高,难分解有机物的分解量增加,例如,温度从 10 ℃ 升至 20 ℃,难分解有机物的腐烂速率常数增加了 1.46 倍。温度升高对可溶性 OM 分解的影响取决于生态系统,与淡水湿地相比,受潮汐影响的湿地受温度的影响有限。根据气候预测,到 2050 年,湿地可腐烂有机物的腐烂常数将增加 1.8%,难腐烂有机物的腐烂常数将增加 3.1%。我们的研究突出表明,在气候变暖的情况下,沿海和内陆湿地地下 OM 有可能减少,但这种影响在大范围内的程度和方向取决于生态系统和 OM 的特征。要解决生态系统对湿地碳保存的影响问题,就必须了解当地与全球的驱动因素。
Climate Effects on Belowground Tea Litter Decomposition Depend on Ecosystem and Organic Matter Types in Global Wetlands
Patchy global data on belowground litter decomposition dynamics limit our capacity to discern the drivers of carbon preservation and storage across inland and coastal wetlands. We performed a global, multiyear study in over 180 wetlands across 28 countries and 8 macroclimates using standardized litter as measures of “recalcitrant” (rooibos tea) and “labile” (green tea) organic matter (OM) decomposition. Freshwater wetlands and tidal marshes had the highest tea mass remaining, indicating a greater potential for carbon preservation in these ecosystems. Recalcitrant OM decomposition increased with elevated temperatures throughout the decay period, e.g., increase from 10 to 20 °C corresponded to a 1.46-fold increase in the recalcitrant OM decay rate constant. The effect of elevated temperature on labile OM breakdown was ecosystem-dependent, with tidally influenced wetlands showing limited effects of temperature compared with freshwater wetlands. Based on climatic projections, by 2050 wetland decay constants will increase by 1.8% for labile and 3.1% for recalcitrant OM. Our study highlights the potential for reduction in belowground OM in coastal and inland wetlands under increased warming, but the extent and direction of this effect at a large scale is dependent on ecosystem and OM characteristics. Understanding local versus global drivers is necessary to resolve ecosystem influences on carbon preservation in wetlands.
期刊介绍:
Environmental Science & Technology (ES&T) is a co-sponsored academic and technical magazine by the Hubei Provincial Environmental Protection Bureau and the Hubei Provincial Academy of Environmental Sciences.
Environmental Science & Technology (ES&T) holds the status of Chinese core journals, scientific papers source journals of China, Chinese Science Citation Database source journals, and Chinese Academic Journal Comprehensive Evaluation Database source journals. This publication focuses on the academic field of environmental protection, featuring articles related to environmental protection and technical advancements.
京公网安备 11010802042870号
京ICP备2023020795号-1
分享
求助内容:
应助结果提醒方式:
扫码关注我们
