Article
Environmental Sciences
Xu Dou, Tongxin Hu, Kajar Koster, Aobo Sun, Guangxin Li, Yang Yue, Long Sun, Yiyang Ding
Summary: This study examines the variations in dissolved organic carbon (DOC) dynamics and soil physicochemical properties following prescribed burnings. Results show that some soil physicochemical and microbial biomass properties recovered within two years after the burning. Soil DOC concentrations varied with sampling time and peaked one year after the prescribed burning. Soil chemical properties, rather than biological properties, were found to be the main driving factors for changes in post-fire soil DOC concentrations.
ENVIRONMENTAL RESEARCH
(2023)
Article
Environmental Sciences
Andoni Alfaro-Leranoz, David Badia-Villas, Clara Marti-Dalmau, Mohamed Emran, Ana Paula Conte-Dominguez, Oriol Ortiz-Perpina
Summary: Since the last half of the 20th Century, scrubs have been invading grasslands in Spain, reducing biodiversity and increasing the risk of fires. Prescribed burnings are used to control the encroachment, but their long-term effects on soils remain unclear. This study found that the prescribed burn of Echinospartum horridum had immediate and long-term effects on soil organic matter and biological activity.
SCIENCE OF THE TOTAL ENVIRONMENT
(2023)
Article
Engineering, Environmental
William Bahureksa, Robert B. Young, Amy M. McKenna, Huan Chen, Kevin A. Thorn, Fernando L. Rosario-Ortiz, Thomas Borch
Summary: Wildfires significantly alter the composition of soil organic matter and dissolved organic matter in forested watersheds. The nitrogen-containing byproducts produced at different fire temperatures are enriched and composed of various aromatic features, impacting ecosystem recovery and water quality.
ENVIRONMENTAL SCIENCE & TECHNOLOGY
(2022)
Article
Geosciences, Multidisciplinary
Yan Vidal de Figueiredo Gomes Diniz, Ana Paula Pessim de Oliveira, Tiago Paula da Silva, Eduardo Carvalho da Silva Neto, Andres Calderin Garcia, Marcos Gervasio Pereira, Marcelo Souza Motta, Hugo de Souza Fagundes, Otavio Augusto Queiroz dos Santos, Lucia Helena Cunha dos Anjos
Summary: This study aimed to quantify and characterize the impact of prescribed fire (PF) on soil organic matter in Itatiaia National Park. The results showed that within 10 days after the fire, the release of labile organic carbon resulted in an increase in humic fractions in the soil. However, it took more than 240 days for the soil to restore the levels of carbon and nitrogen stocks.
Article
Agronomy
Alexander Lisov, Oksana Belova, Anna Zavarzina, Andrey Konstantinov, Alexey Leontievsky
Summary: The biochemical stability of soil humus is crucial for soil quality, and fungi play a significant role in decomposing humic matter through oxidative enzymes. This study demonstrates that laccase produced by Mortierella elasson, a zygomycetous fungus, can effectively depolymerize humic acids in vitro. However, factors influencing laccase production in zygomycetes are still poorly understood.
Review
Forestry
Teresa Fonturbel, Noela Carrera, Jose Antonio Vega, Cristina Fernandez
Summary: The effects of prescribed burning on soil are complex and variable, with inconsistent results and generally minor impacts on most soil characteristics studied, while some soil properties show contrasting responses.
Article
Engineering, Civil
Misagh Parhizkar, Artemio Cerda
Summary: This study evaluates the effects of human-caused fires on soil erosion processes, specifically on rill erosion parameters on steep slopes. The results show that human-caused fires significantly increase the rill detachment capacity and rill erodibility of the soil due to changes in organic matter content, bulk density, and aggregate stability.
JOURNAL OF HYDROLOGY
(2023)
Article
Plant Sciences
Nicolas Fanin, Karina E. Clemmensen, Bjoern D. Lindahl, Mark Farrell, Marie-Charlotte Nilsson, Michael J. Gundale, Paul Kardol, David A. Wardle
Summary: The study found that the removal of ericaceous shrubs and associated ERI changed the composition of EMF communities, with larger effects occurring at earlier stages of the chronosequence. Removal of shrubs was associated with enhanced N availability, litter decomposition, and enrichment of the recalcitrant OM fraction. Increasing abundance of slow-growing ericaceous shrubs and the associated fungi contributes to increasing nutrient limitation, impaired decomposition, and progressive OM accumulation in boreal forests, particularly towards later successional stages.
Article
Environmental Sciences
Pedro Antonio Plaza-Alvarez, Daniel Moya, Manuel Esteban Lucas-Borja, Fuensanta Garcia-Orenes, Javier Gonzalez-Romero, Carlos Rossa, Esther Pena, Jorge De las Heras
Summary: This study evaluated the short-term effects of prescribed burnings on soil physico-chemical and biological properties, finding that it can decrease understory vegetation cover while reducing soil biological functions in areas with poorly developed soil and a dry climate.
LAND DEGRADATION & DEVELOPMENT
(2021)
Article
Forestry
Wenxin Chen, Huaying Hu, Kate Heal, Saran Sohi, Mulualem Tigabu, Weijuan Qiu, Chuifan Zhou
Summary: Studying the changes and linkages between dissolved organic matter (DOM) and microorganisms in soils during vegetation restoration helps to understand the role of vegetation restoration in soil carbon sequestration and improve understanding of the global soil carbon cycle.
Article
Biochemistry & Molecular Biology
Jana Sera, Florence Huynh, Faith Ly, Stepan Vinter, Marketa Kadleckova, Vendula Kratka, Daniela Macalova, Marek Koutny, Christopher Wallis
Summary: This study investigates the interactions between different polymers and soil matrix and their influence on the soil environment. The results show that slowly degrading polyesters are associated with higher humic substances in the soil, while the addition of PHB polymer increases fungal biomass and PE wax increases bacterial biomass. Additionally, PHB and PBAT polymers may be covered by fungal biofilms.
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
(2022)
Article
Forestry
Aitor Vazquez-Veloso, Tatek Dejene, Juan Andres Oria-de-Rueda, Mercedes Guijarro, Carmen Hernando, Juncal Espinosa, Javier Madrigal, Pablo Martin-Pinto
Summary: The study found that prescribed burning did not significantly impact total fungal richness and composition, but did reveal differences in specific phyla and functional trophic groups. Valuable edible fungi were found in the study area, unaffected by prescribed burning.
FOREST ECOLOGY AND MANAGEMENT
(2022)
Article
Plant Sciences
Ashley K. Lang, Jennifer Pett-Ridge, Karis J. McFarlane, Richard P. Phillips
Summary: Identifying the primary controls of POM and MAOM content in soils is crucial for determining future stocks of soil C and N globally. However, drivers of these soil organic matter fractions are likely to vary among ecosystems due to climate, soil type, and the composition of local biological communities.
JOURNAL OF ECOLOGY
(2023)
Article
Ecology
William A. Argiroff, Donald R. Zak, Peter T. Pellitier, Rima A. Upchurch, Julia P. Belke
Summary: The study reveals that ectomycorrhizal fungi with peroxidases decrease with increasing inorganic nitrogen availability in northern temperate forests, while ligninolytic fungal saprotrophs show no response. Soil organic matter and soil carbon are negatively correlated with ECM fungi with peroxidases and positively correlated with inorganic nitrogen availability, indicating that these ECM fungi contribute to the decay of lignin-derived soil organic matter and reduce soil carbon storage. The correlations observed suggest a tradeoff between tree nitrogen nutrition and ECM composition, influencing soil organic matter dynamics in temperate forests.
Article
Environmental Sciences
Huan Li, Guangli Liu, Haiping Luo, Renduo Zhang
Summary: This study explores the impact of labile organic carbon (LOC) input on soil organic matter (SOM) turnover under different redox conditions. The results show that LOC input affects soil priming and 13C-SOM accumulation by altering the activities of various microorganisms. The activities of fungi and gram-positive bacteria are increased by LOC input, leading to positive priming. Redox fluctuations also play a role in determining the retention of LOC in SOM.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2023)
Article
Environmental Sciences
Kirsten J. Lees, Myroslava Khomik, Tristan Quaife, Joanna M. Clark, Tim Hill, Daniela Klein, Jonathan Ritson, Rebekka R. E. Artz
Summary: The study evaluated the reliability of models based on Earth Observations for estimating ecosystem photosynthesis at different scales. Results showed that GPP measurements from remote sensing were robust at all scales, but the reliability of the models at different scales was dependent on the measurement methods used for calibration and validation. The effect of microtopography on GPP fluxes was found to be spatially and temporally inconsistent, though connected to water content and vegetation species.
SCIENCE OF THE TOTAL ENVIRONMENT
(2021)
Article
Soil Science
Haiyang Zhang, Jeff R. Powell, Jonathan M. Plett, Amber C. Churchill, Sally A. Power, Catriona A. Macdonald, Vinod Jacob, Gil Won Kim, Elise Pendall, David Tissue, Karen M. Catunda, Chioma Igwenagu, Yolima Carrillo, Ben D. Moore, Ian C. Anderson
Summary: Nutrient losses due to leaching in agricultural soils can be reduced by arbuscular mycorrhizal (AM) fungi, but the extent of this mitigation may vary under different temperature and water conditions. This study found that AM fungi significantly decreased phosphorus leaching for both lucerne and tall fescue, but the effectiveness was impacted by temperature and plant species. Additionally, nitrogen leaching responses differed between species and were influenced by drought conditions.
SOIL BIOLOGY & BIOCHEMISTRY
(2021)
Article
Environmental Sciences
Jonathan P. Ritson, Danielle M. Alderson, Clare H. Robinson, Alexandra E. Burkitt, Andreas Heinemeyer, Andrew G. Stimson, Angela Gallego-Sala, Angela Harris, Anne Quillet, Ashish A. Malik, Beth Cole, Bjorn J. M. Robroek, Catherine M. Heppell, Damian W. Rivett, Dave M. Chandler, David R. Elliott, Emma L. Shuttleworth, Erik Lilleskov, Filipa Cox, Gareth D. Clay, Iain Diack, James Rowson, Jennifer Pratscher, Jonathan R. Lloyd, Jonathan S. Walker, Lisa R. Belyea, Marc G. Dumont, Mike Longden, Nicholle G. A. Bell, Rebekka R. E. Artz, Richard D. Bardgett, Robert Griffiths, Roxane Andersen, Sarah E. Chadburn, Simon M. Hutchinson, Susan E. Page, Tim Thom, William Burn, Martin G. Evans
Summary: Peatlands are important wetland ecosystems with great significance as natural habitats and major carbon stores. Improved understanding of soil microbiota and their influence on peatland functioning is crucial for restoring ecosystem services. Multidisciplinary collaborations and advances in genetic characterisation of microbial communities are necessary to achieve climate targets and cost-effectively deliver ecosystem services.
SCIENCE OF THE TOTAL ENVIRONMENT
(2021)
Article
Environmental Sciences
K. J. Lees, R. R. E. Artz, D. Chandler, T. Aspinall, C. A. Boulton, J. Buxton, N. R. Cowie, T. M. Lenton
Summary: This study explores the use of remote sensing to monitor peatland resilience to drought, finding a correlation between water table depth proxy and resilience in degraded peatland areas in the UK. The results suggest areas with lower resilience, often corresponding to high drainage areas, may be particularly vulnerable to increasing drought severity/events under climate change.
SCIENCE OF THE TOTAL ENVIRONMENT
(2021)
Article
Multidisciplinary Sciences
C. D. Evans, M. Peacock, A. J. Baird, R. R. E. Artz, A. Burden, N. Callaghan, P. J. Chapman, H. M. Cooper, M. Coyle, E. Craig, A. Cumming, S. Dixon, V. Gauci, R. P. Grayson, C. Helfter, C. M. Heppell, J. Holden, D. L. Jones, J. Kaduk, P. Levy, R. Matthews, N. P. McNamara, T. Misselbrook, S. Oakley, S. E. Page, M. Rayment, L. M. Ridley, K. M. Stanley, J. L. Williamson, F. Worrall, R. Morrison
Summary: This study shows that the depth of the water table is the main factor influencing greenhouse gas fluxes in peatlands. By lowering the water table depth by 10 cm, emissions of CO2 and CH4 can be reduced by the equivalent of at least 3 tonnes of CO2 per hectare per year, until the water table depth is less than 30 cm.
Article
Ecology
Catarina S. C. Martins, Loic Nazaries, Manuel Delgado-Baquerizo, Catriona A. Macdonald, Ian C. Anderson, Brajesh K. Singh
Summary: The free-air carbon dioxide enrichment (FACE) experiments have shown the ecological responses of key ecosystem processes to rising atmospheric carbon dioxide (CO2), but rarely included methane (CH4) and nitrous oxide (N2O) responses, particularly in natural and mature forests. This study aimed to capture the long-term temporal dynamics of CH4 and N2O fluxes under elevated CO2 (+150 ppm) in a mature dryland Eucalypt forest in Australia. The findings highlight the reduction in CH4 sink and overall decrease in N2O emissions under elevated CO2, with soil moisture, rainfall, and pH being the main predictors of net CH4 and N2O emissions.
FUNCTIONAL ECOLOGY
(2021)
Article
Environmental Sciences
Brittany A. Verbeke, Louis J. Lamit, Erik A. Lilleskov, Suzanne B. Hodgkins, Nathan Basiliko, Evan S. Kane, Roxane Andersen, Rebekka R. E. Artz, Juan C. Benavides, Brian W. Benscoter, Werner Borken, Luca Bragazza, Stefani M. Brandt, Suzanna L. Braeuer, Michael A. Carson, Dan Charman, Xin Chen, Beverley R. Clarkson, Alexander R. Cobb, Peter Convey, Jhon del Aguila Pasquel, Andrea S. Enriquez, Howard Griffiths, Samantha P. Grover, Charles F. Harvey, Lorna Harris, Christina Hazard, Dominic Hodgson, Alison M. Hoyt, John Hribljan, Jyrki Jauhiainen, Sari Juutinen, Klaus-Holger Knorr, Randall K. Kolka, Mari Kononen, Tuula Larmola, Carmody K. McCalley, James McLaughlin, Tim R. Moore, Nadia Mykytczuk, Anna E. Normand, Virginia Rich, Nigel Roulet, Jessica Royles, Jasmine Rutherford, David S. Smith, Mette M. Svenning, Leho Tedersoo, Pham Q. Thu, Carl C. Trettin, Eeva-Stiina Tuittila, Zuzana Urbanova, Ruth K. Varner, Meng Wang, Zheng Wang, Matt Warren, Magdalena M. Wiedermann, Shanay Williams, Joseph B. Yavitt, Zhi-Guo Yu, Zicheng Yu, Jeffrey P. Chanton
Summary: This study examined variations in the organic matter functional groups of peat samples collected from different latitudes and elevations using Fourier Transform Infrared Spectroscopy. The results showed that peat from high latitudes had higher carbohydrate content, while peat from low latitudes had higher aromatic content. For peat from similar latitudes but different elevations, higher elevations had higher carbohydrate content and lower aromatic content. These findings are important for understanding the response of peatland soil to climate change.
GLOBAL BIOGEOCHEMICAL CYCLES
(2022)
Article
Plant Sciences
Richard A. Hill, Johanna Wong-Bajracharya, Sidra Anwar, Donovin Coles, Mei Wang, Anna Lipzen, Vivian Ng, Igor Grigoriev, Francis Martin, Ian C. Anderson, Christopher Cazzonelli, Thomas Jeffries, Krista L. Plett, Jonathan M. Plett
Summary: The pathways regulated in ectomycorrhizal plant hosts during the establishment of symbiosis are not as well understood, but a study on Eucalyptus grandis using RNA sequencing and metabolomics revealed specific and core responses to symbiosis. Despite being mutualistic, a large number of disease signaling genes were induced, with a dynamic transcriptional regulation observed in E. grandis across colonization stages, including genes associated with the carotenoid/ABA pathway.
Article
Environmental Sciences
Rebekka R. E. Artz, Mhairi Coyle, Gillian Donaldson-Selby, Ross Morrison
Summary: The impact of greenhouse gas emissions from degraded peatland environments on national inventories and subsequent mitigation efforts has only been given serious consideration in the last decade. Data on greenhouse gas emissions from specific cases of peatland degradation, such as eroding peatlands, are particularly scarce. This study presents the first monitoring of carbon dioxide (CO2) emissions from an eroding Atlantic blanket bog using the eddy covariance method, revealing that direct CO2 emissions from eroded peatlands are at risk of increasing with projected changes in temperatures and precipitation due to global climate change.
Article
Multidisciplinary Sciences
Shaun Watmough, Spencer Gilbert-Parkes, Nathan Basiliko, Louis J. Lamit, Erik A. Lilleskov, Roxanne Andersen, Jhon Del Aguila-Pasquel, Rebekka E. Artz, Brian W. Benscoter, Werner Borken, Luca Bragazza, Stefani M. Brandt, Suzanna L. Brauer, Michael A. Carson, Xin Chen, Rodney A. Chimner, Bev R. Clarkson, Alexander R. Cobb, Andrea S. Enriquez, Jenny Farmer, Samantha P. Grover, Charles F. Harvey, Lorna Harris, Christina Hazard, Alison M. Hoyt, John Hribljan, Jyrki Jauhiainen, Sari Juutinen, Evan S. Kane, Klaus-Holger Knorr, Randy Kolka, Mari Kononen, Anna M. Laine, Tuula Larmola, Patrick A. Levasseur, Carmody K. McCalley, Jim McLaughlin, Tim R. Moore, Nadia Mykytczuk, Anna E. Normand, Virginia Rich, Bryce Robinson, Danielle L. Rupp, Jasmine Rutherford, Christopher W. Schadt, Dave S. Smith, Graeme Spiers, Leho Tedersoo, Pham Q. Thu, Carl C. Trettin, Eeva-Stiina Tuittila, Merritt Turetsky, Zuzana Urbanova, Ruth K. Varner, Mark P. Waldrop, Meng Wang, Zheng Wang, Matt Warren, Magdalena M. Wiedermann, Shanay T. Williams, Joseph B. Yavitt, Zhi-Guo Yu, Geoff Zahn
Summary: Carbon and nitrogen concentrations vary among different peatland categories, but depth does not have a significant impact on the chemical composition within each category. The study shows that carbon and organic matter concentrations can be predicted based on broadly classified peatland categories, which is important for future research on global peatland carbon and nitrogen stocks.
Article
Remote Sensing
Jonathan Ball, Alessandro Gimona, Neil Cowie, Mark Hancock, Daniela Klein, Gillian Donaldson-Selby, Rebekka R. E. Artz
Summary: Peatland is a vital carbon store globally, and effective monitoring of landscape-scale restoration projects is crucial. A classification model based on remote sensing data was developed to evaluate the trajectory of peatland restoration in northern Scotland. The model performed well, especially when using Sentinel-2 satellite data. It successfully predicted the starting and target land covers, but uncertainties remained for sites with intermediate restoration age and additional treatments. The study showed that restoration sites resemble the target state after 10-20 years of intervention.
INTERNATIONAL JOURNAL OF REMOTE SENSING
(2023)
Article
Environmental Sciences
Linda Toca, Rebekka R. E. Artz, Catherine Smart, Tristan Quaife, Keith Morrison, Alessandro Gimona, Robert Hughes, Mark H. H. Hancock, Daniela Klein
Summary: In this study, the application of Sentinel-1 SAR backscatter for water table depth monitoring in near-natural and restored blanket bogs was illustrated. The random forest model was found to be the most suitable for predicting water table dynamics. It was proposed that this approach should be tested in a wider range of peatland sites.
Article
Environmental Sciences
Clare H. Robinson, Jonathan P. Ritson, Danielle M. Alderson, Ashish A. Malik, Robert I. Griffiths, Andreas Heinemeyer, Angela V. Gallego-Sala, Anne Quillet, Bjorn J. M. Robroek, Chris Evans, Dave M. Chandler, David R. Elliott, Emma L. V. Shutttleworth, Erik A. Lilleskov, Ezra Kitson, Filipa Cox, Fred Worrall, Gareth D. Clay, Ian Crosher, Jennifer Pratscher, Jon Bird, Jonathan Walker, Lisa R. Belyea, Marc G. Dumont, Nichole G. A. Bell, Rebekka R. E. Artz, Richard D. Bardgett, Roxane Andersen, Simon M. Hutchinson, Susan E. Page, Tim J. Thom, William Burn, Martin G. Evans
Summary: Efforts are being made globally to restore peatlands to increase their resilience to climate change. Climate change affects the formation of peatlands and carbon storage through alterations in waterlogged conditions, soil temperature, and water table depth, which in turn have significant consequences for microbial communities and carbon cycling in peatlands. Restoration of a resilient microbiome is crucial for sustaining the climate regulation functions of peatland systems.
Article
Plant Sciences
Krista L. Plett, Dominika Wojtalewicz, Ian C. Anderson, Jonathan M. Plett
Summary: This study investigates the transfer of nitrogen (N) from ECM fungi of the Pisolithus genus to the host plant, and finds that fungal N metabolism plays a crucial role in N transfer to the host. Basic biochemical analyses can potentially predict N transfer in this symbiotic interaction.
Article
Remote Sensing
L. Toca, K. Morrison, R. R. E. Artz, A. Gimona, T. Quaife
Summary: Carbon storage and active carbon sequestration in peatlands are influenced by water table depth and soil moisture availability. Synthetic aperture radar (SAR) is an efficient way to monitor the hydrological condition of peatland ecosystems. Radar backscatter amplitude and phase are sensitive to changes in water table level and soil moisture.
INTERNATIONAL JOURNAL OF REMOTE SENSING
(2022)
