Your search keyword '"Gallego-Sala, A"' showing total 284 results

251. A strong mitigation scenario maintains climate neutrality of northern peatlands

Author

Qiud, Chunjing, Ciais, Philippe, Zhu, Dan, Guenet, Bertrand, Chang, Jinfeng, Chaudhary, Nitin, Kleinen, Thomas, Li, XinYu, Müller, Jurek, Xi, Yi, Zhang, Wenxin, Ballantyne, Ashley, Brewer, Simon C., Brovkin, Victor, Charman, Dan J., Gustafson, Adrian, Gallego-Sala, Angela V., Gasser, Thomas, Holden, Joseph, Joos, Fortunat, Kwon, Min Jung, Lauerwald, Ronny, Miller, Paul A., Peng, Shushi, Page, Susan, Smith, Benjamin, Stocker, Benjamin D., Sannel, A. Britta K., Salmon, Elodie, Schurgers, Guy, Shurpali, Narasinha J., Warlind, David, and Westermann, Sebastian

Subjects

13. Climate action, 15. Life on land

Abstract

Northern peatlands store 300–600 Pg C, of which approximately half are underlain by permafrost. Climate warming and, in some regions, soil drying from enhanced evaporation are progressively threatening this large carbon stock. Here, we assess future CO2 and CH4 fluxes from northern peatlands using five land surface models that explicitly include representation of peatland processes. Under Representative Concentration Pathways (RCP) 2.6, northern peatlands are projected to remain a net sink of CO2 and climate neutral for the next three centuries. A shift to a net CO2 source and a substantial increase in CH4 emissions are projected under RCP8.5, which could exacerbate global warming by 0.21°C (range, 0.09–0.49°C) by the year 2300. The true warming impact of peatlands might be higher owing to processes not simulated by the models and direct anthropogenic disturbance. Our study highlights the importance of understanding how future warming might trigger high carbon losses from northern peatlands., One Earth, 5 (1), ISSN:2590-3322

252. Holocene development of Amazonia's oldest peatland

Author

Graeme Swindles, Paul Morris, Bronwen Whitney, Mariusz Galka, Jennifer Galloway, Angela Gallego-Sala, Andrew Macumber, Donal Mullan, Mark Smith, Matthew Amesbury, Thomas Roland, Hamed Sanei, Timothy Patterson, Lauren Parry, Dan Charman, Omar Lopez, Elvis Valderrama, Elizabeth Watson, Outi Lahteenoja, and Andrew Baird

253. Expert assessment of future vulnerability of the global peatland carbon sink

Author

Loisel, J., Gallego-Sala, A. V., Amesbury, M. J., Magnan, G., Anshari, G., Beilman, D. W., Benavides, J. C., Blewett, J., Camill, P., Charman, D. J., Chawchai, S., Hedgpeth, A., Kleinen, T., Korhola, A., Large, D., Mansilla, C. A., Müller, J., van Bellen, S., West, J. B., Yu, Z., Bubier, J. L., Garneau, M., Moore, T., Sannel, A. B. K., Page, S., Väliranta, M., Bechtold, M., Brovkin, V., Cole, L. E. S., Chanton, J. P., Christensen, T. R., Davies, M. A., De Vleeschouwer, F., Finkelstein, S. A., Frolking, S., Gałka, M., Gandois, L., Girkin, N., Harris, L. I., Heinemeyer, A., Hoyt, A. M., Jones, M. C., Joos, F., Juutinen, S., Kaiser, K., Lacourse, T., Lamentowicz, M., Larmola, T., Leifeld, J., Lohila, A., Milner, A. M., Minkkinen, K., Moss, P., Naafs, B. D. A., Nichols, J., O’Donnell, J., Payne, R., Philben, M., Piilo, S., Quillet, A., Ratnayake, A. S., Roland, T. P., Sjögersten, S., Sonnentag, O., Swindles, G. T., Swinnen, W., Talbot, J., Treat, C., Valach, A. C., and Wu, J.

Subjects

13. Climate action, 530 Physics, 550 Earth sciences & geology, 15. Life on land

254. WETCHIMP-WSL: Intercomparison of wetland methane emissions models over West Siberia

Author

Bohn T., Melton J., Ito A., Kleinen T., Spahni R., Stocker B., Zhang B., Zhu X., Schroeder R., Glagolev M., Maksyutov S., Brovkin V., Chen G., Denisov S., Eliseev A., Gallego-Sala A., McDonald K., Rawlins M., Riley W., Subin Z., Tian H., Zhuang Q., Kaplan J., Bohn T., Melton J., Ito A., Kleinen T., Spahni R., Stocker B., Zhang B., Zhu X., Schroeder R., Glagolev M., Maksyutov S., Brovkin V., Chen G., Denisov S., Eliseev A., Gallego-Sala A., McDonald K., Rawlins M., Riley W., Subin Z., Tian H., Zhuang Q., and Kaplan J.

Abstract

© 2015 Author(s). Wetlands are the world's largest natural source of methane, a powerful greenhouse gas. The strong sensitivity of methane emissions to environmental factors such as soil temperature and moisture has led to concerns about potential positive feedbacks to climate change. This risk is particularly relevant at high latitudes, which have experienced pronounced warming and where thawing permafrost could potentially liberate large amounts of labile carbon over the next 100 years. However, global models disagree as to the magnitude and spatial distribution of emissions, due to uncertainties in wetland area and emissions per unit area and a scarcity of in situ observations. Recent intensive field campaigns across the West Siberian Lowland (WSL) make this an ideal region over which to assess the performance of large-scale process-based wetland models in a high-latitude environment. Here we present the results of a follow-up to the Wetland and Wetland CH4 Intercomparison of Models Project (WETCHIMP), focused on the West Siberian Lowland (WETCHIMP-WSL). We assessed 21 models and 5 inversions over this domain in terms of total CH4 emissions, simulated wetland areas, and CH4 fluxes per unit wetland area and compared these results to an intensive in situ CH4 flux data set, several wetland maps, and two satellite surface water products. We found that (a) despite the large scatter of individual estimates, 12-year mean estimates of annual total emissions over the WSL from forward models (5.34 ± 0.54 Tg CH4 yrg'1), inversions (6.06 ± 1.22 Tg CH4 yrg'1), and in situ observations (3.91 ± 1.29 Tg CH4 yrg'1) largely agreed; (b) forward models using surface water products alone to estimate wetland areas suffered from severe biases in CH4 emissions; (c) the interannual time series of models that lacked either soil thermal physics appropriate to the high latitudes or realistic emissions from unsaturated peatlands tended to be dominated by a single environmental driver (inunda

255. WETCHIMP-WSL: Intercomparison of wetland methane emissions models over West Siberia

Author

Bohn T., Melton J., Ito A., Kleinen T., Spahni R., Stocker B., Zhang B., Zhu X., Schroeder R., Glagolev M., Maksyutov S., Brovkin V., Chen G., Denisov S., Eliseev A., Gallego-Sala A., McDonald K., Rawlins M., Riley W., Subin Z., Tian H., Zhuang Q., Kaplan J., Bohn T., Melton J., Ito A., Kleinen T., Spahni R., Stocker B., Zhang B., Zhu X., Schroeder R., Glagolev M., Maksyutov S., Brovkin V., Chen G., Denisov S., Eliseev A., Gallego-Sala A., McDonald K., Rawlins M., Riley W., Subin Z., Tian H., Zhuang Q., and Kaplan J.

Abstract

© 2015 Author(s). Wetlands are the world's largest natural source of methane, a powerful greenhouse gas. The strong sensitivity of methane emissions to environmental factors such as soil temperature and moisture has led to concerns about potential positive feedbacks to climate change. This risk is particularly relevant at high latitudes, which have experienced pronounced warming and where thawing permafrost could potentially liberate large amounts of labile carbon over the next 100 years. However, global models disagree as to the magnitude and spatial distribution of emissions, due to uncertainties in wetland area and emissions per unit area and a scarcity of in situ observations. Recent intensive field campaigns across the West Siberian Lowland (WSL) make this an ideal region over which to assess the performance of large-scale process-based wetland models in a high-latitude environment. Here we present the results of a follow-up to the Wetland and Wetland CH4 Intercomparison of Models Project (WETCHIMP), focused on the West Siberian Lowland (WETCHIMP-WSL). We assessed 21 models and 5 inversions over this domain in terms of total CH4 emissions, simulated wetland areas, and CH4 fluxes per unit wetland area and compared these results to an intensive in situ CH4 flux data set, several wetland maps, and two satellite surface water products. We found that (a) despite the large scatter of individual estimates, 12-year mean estimates of annual total emissions over the WSL from forward models (5.34 ± 0.54 Tg CH4 yrg'1), inversions (6.06 ± 1.22 Tg CH4 yrg'1), and in situ observations (3.91 ± 1.29 Tg CH4 yrg'1) largely agreed; (b) forward models using surface water products alone to estimate wetland areas suffered from severe biases in CH4 emissions; (c) the interannual time series of models that lacked either soil thermal physics appropriate to the high latitudes or realistic emissions from unsaturated peatlands tended to be dominated by a single environmental driver (inunda

256. A cautionary tale about using the apparent carbon accumulation rate (aCAR) obtained from peat cores.

Author

Young, Dylan M., Baird, Andy J., Gallego-Sala, Angela V., and Loisel, Julie

Subjects

*PEATLANDS, *CLIMATE change mitigation, *CARBON, *ECOSYSTEMS, *ENVIRONMENTAL protection

Abstract

The carbon (C) accumulation histories of peatlands are of great interest to scientists, land users and policy makers. Because peatlands contain more than 500 billion tonnes of C, an understanding of the fate of this dynamic store, when subjected to the pressures of land use or climate change, is an important part of climate-change mitigation strategies. Information from peat cores is often used to recreate a peatland's C accumulation history from recent decades to past millennia, so that comparisons between past and current rates can be made. However, these present day observations of peatlands' past C accumulation rates (known as the apparent rate of C accumulation - aCAR) are usually different from the actual uptake or loss of C that occurred at the time (the true C balance). Here we use a simple peatland model and a more detailed ecosystem model to illustrate why aCAR should not be used to compare past and current C accumulation rates. Instead, we propose that data from peat cores are used with existing or new C balance models to produce reliable estimates of how peatland C function has changed over time. [ABSTRACT FROM AUTHOR]

Published

2021

257. Interesting notes from Bird Island (courtesy of British Antarctic Survey's 'Icesheet').

Author

Robbins, James, Newman, Tegan, and Gallego-Sala, Angela

Published

2017

258. Late Quaternary changes in the westerly winds over the Southern Ocean

Author

Whittle, A., Gallego-Sala, A., Charman, D., Hodgson, D., Roberts, S., and Amesbury, M.

Subjects

Palaeoclimate, Testate amoebae, Sub-Antarctic, Microbial Ecology, Southern Hemisphere Westerly Winds, Salinity, ITRAX XRF, Peat, Palaeoenvironment, Bioindicator, Climate change, Coastal ecology, South Georgia, Salt spray

Abstract

The latitudinal position and intensity of the Southern Hemisphere westerly winds (SHW) has important and far-reaching implications for global climate and the physical environment in the southern high latitudes. Despite this, our ability to project how they will change in the future is reduced by limited understanding of their behaviour over centennial to millennial timescales. Peatland archives on the sub-Antarctic Islands are uniquely located inside the core wind-belt (50-55˚S), and hence ideally situated to reconstruct changes in westerly wind behaviour. However, suitable proxies to develop reconstructions of wind-strength throughout the region are lacking. Westerly winds are shown to enrich the sub-Antarctic Islands with salt-spray in concentrations that are proportional to wind-strength. This research has tested the potential for peat-dwelling testate amoebae to act as a bioindicator for variations in salt-spray deposition through time. Measurements of communities in variably salt-enriched environments - spanning a gradient from predominantly freshwater to salt-marsh - revealed a strong relationship between the productivity of testate amoeba communities and salinity, which allows past salt-concentrations to be inferred from sub-fossil assemblages. Presented here are two reconstructions of SHW intensity over the South Atlantic, based primarily on changes in the productivity of testate amoeba communities. The first provides a high-resolution record of the changes in wind-intensity over recent decades, extending beyond the observational record to 1920 CE, and demonstrating that present-day wind conditions are unprecedented over the last century. The second record, collected from the same site, provides a c. 8000-year reconstruction of wind-intensity over the South Atlantic, based on changes in testate amoeba productivity as part of a multi-proxy analysis that includes three independent proxies to track the deposition of salt-spray aerosols and minerogenic particles into the peat record on Bird Island (sub-Antarctica). Three significant phases of intensified winds during this period (0.45-1.15, 2.8-3.65 and 4.45-8 k yr BP) indicate long-term correspondence between temperature and wind-strength at 54˚S. These observations suggest that with climatic warming in the 21st Century, the westerly wind belt will continue to intensify and displace southwards, leading to increased wind-stress over the Southern Ocean. Implications of this shift are expected to include; reduced precipitation supply to the Southern Hemisphere continents, reduced Antarctic ice-sheet stability and increased contributions to global sea-level, and weakening of the Southern Ocean carbon sink, allowing accumulation of more CO₂ in the atmosphere.

Published

2021

259. Temperature effects on trace gas production and uptake in aerobic and anaerobic soils

Author

Gallego-Sala, Angela V.

Subjects

577.687

Abstract

Peatland and mineral soils are important reservoirs in the global carbon cycle and there is much interest in characterising the response of their carbon stores to temperature perturbations. Peatlands are notable also because of their dual function as carbon capacitors and amplifiers in the Earth System, sequestering CO2 into soil biomass, but also producing CH4, a more potent greenhouse gas. Cycling of H2 in soil is poorly characterised despite accounting for 80% of the annual atmospheric H2 sink. This study adapted a novel heating and cooling instrument, typically used for process chemistry, as a new form of soil incubator. Its ability to generate cyclical and ramped temperature regimes was exploited to simulate diurnal soil temperature variations while concentrations of CH4, CO2 and H2 were measured. These data were used to calculate turnover rates, F-ratios, Q10 factors, activation energy and Gibbs free energy for specific microbial and enzymatic processes. Determinations were compared to data from conventional stepped temperature incubations presently used in models. Lower rates of methanogenesis occurred in cyclical versus constant temperature incubations; however, the effect existed only in high trophic status peat. Temperature sensitivity of anaerobic CO2 production also was linked positively to nutrient status. Rates of H2 production were unaffected by temperature regime but were highly sensitive to temperature. Rates of aerobic CO2 production in mineral soil were more sensitive to temperature in organic matter rich soil while H2 cycling in the same soil occasionally exhibited unusual behaviour that suggested H2 (and possibly CH4) was produced in anoxic micro-sites. Methanogenesis functioned near its thermodynamic limit and F-ratios were consistently lower than values used in most peatland CH4 models. Living plants were excluded from these experiments and thus findings carry the caveat that a major source of labile carbon was absent. The importance of root biomass to carbon mineralization processes was established during characterisation of in situ conditions at the sites from which peat was obtained for the incubations.

Published

2008

260. Consistent centennial‐scale change in European sub‐Arctic peatland vegetation toward Sphagnum dominance—Implications for carbon sink capacity.

Author

Piilo, Sanna R., Väliranta, Minna M., Amesbury, Matt J., Aquino‐López, Marco A., Charman, Dan J., Gallego‐Sala, Angela, Garneau, Michelle, Koroleva, Natalia, Kärppä, Mai, Laine, Anna M., Sannel, A. Britta K., Tuittila, Eeva‐Stiina, and Zhang, Hui

Subjects

*GLOBAL warming, *PERMAFROST ecosystems, *PEAT mosses, *CARBON cycle, *VEGETATION dynamics, *PEATLANDS, *CLIMATE change

Abstract

Climate warming is leading to permafrost thaw in northern peatlands, and current predictions suggest that thawing will drive greater surface wetness and an increase in methane emissions. Hydrology largely drives peatland vegetation composition, which is a key element in peatland functioning and thus in carbon dynamics. These processes are expected to change. Peatland carbon accumulation is determined by the balance between plant production and peat decomposition. But both processes are expected to accelerate in northern peatlands due to warming, leading to uncertainty in future peatland carbon budgets. Here, we compile a dataset of vegetation changes and apparent carbon accumulation data reconstructed from 33 peat cores collected from 16 sub‐arctic peatlands in Fennoscandia and European Russia. The data cover the past two millennia that has undergone prominent changes in climate and a notable increase in annual temperatures toward present times. We show a pattern where European sub‐Arctic peatland microhabitats have undergone a habitat change where currently drier habitats dominated by Sphagnum mosses replaced wetter sedge‐dominated vegetation and these new habitats have remained relatively stable over the recent decades. Our results suggest an alternative future pathway where sub‐arctic peatlands may at least partly sustain dry vegetation and enhance the carbon sink capacity of northern peatlands. [ABSTRACT FROM AUTHOR]

Published

2023

261. Climate controls on carbon accumulation in peatlands of Northeast China.

Author

Xing, Wei, Bao, Kunshan, Gallego-Sala, Angela V., Charman, Dan J., Zhang, Zhenqing, Gao, Chuanyu, Lu, Xianguo, and Wang, Guoping

Subjects

*PEATLANDS, *ENVIRONMENTAL engineering, *CARBON in soils, *CARBON cycle, *HOLOCENE Epoch

Abstract

Peatlands contain around one third of the global soil carbon (C) and play an important role in the C cycle. In particular, the response of the productivity-decay balance to climate variability is critical for understanding both the past and future global C cycle. Most studies of peatland C dynamics have been carried out on boreal and subarctic peatlands, where climate models predict a greater increase in temperature compared to the global average. Less is known about peatlands at lower latitudes, yet there are significant peatland C stocks in these regions that may be more vulnerable to future climate change because they are closer to the climatic limit of peatland distribution. Northeast China is China's largest wetland region, with extensive peatlands in mountain regions and across the plains. Here, we used core data from 134 peatland sites to quantify the C accumulation rate over different timescales and estimate C storage across northeast China. The results show that the Holocene long-term apparent rate of C accumulation (LORCA) ranged from 5.74 to 129.31 g C m −2 yr −1 , with a mean rate of 33.66 g C m −2 yr −1 . The total wetland area and C storage within this region is 82,870 km 2 and 4.34 Gt C, and about 80% of the C is contained in mountain peatlands. We find that total C accumulated over the last 2000 years is linearly related to photosynthetically active radiation over the growing season, supporting the hypothesis that rates of net primary productivity (NPP) are more important than decomposition rates in determining long-term C accumulation. Although peatlands in northeast China are close to the southern limit of major peatland extent, our data suggest that future warming will lead to greater future C accumulation, as long as moisture balance or cloudiness do not become limiting factors. [ABSTRACT FROM AUTHOR]

Published

2015

262. Author Correction: Newly initiated carbon stock, organic soil accumulation patterns and main driving factors in the High Arctic Svalbard, Norway.

Author

Juselius, T., Ravolainen, V., Zhang, H., Piilo, S., Müller, M., Gallego-Sala, A., and Väliranta, M.

Subjects

*CARBON

Abstract

Correction to: I Scientific Reports i https://doi.org/10.1038/s41598-022-08652-9, published online 18 March 2022 The original version of this Article contained errors in Figure 2 and 4, where incorrect versions of these figures were published. The original article can be found online at https://doi.org/10.1038/s41598-022-08652-9. [Extracted from the article]

Published

2023

263. Newly initiated carbon stock, organic soil accumulation patterns and main driving factors in the High Arctic Svalbard, Norway.

Author

Juselius, T., Ravolainen, V., Zhang, H., Piilo, S., Müller, M., Gallego-Sala, A., and Väliranta, M.

Subjects

*SOIL profiles, *SOIL stabilization, *CLIMATE change, *SOIL testing, *HISTOSOLS, *SOIL moisture

Abstract

High latitude organic soils form a significant carbon storage and deposition of these soils is largely driven by climate. Svalbard, Norway, has experienced millennial-scale climate variations and in general organic soil processes have benefitted from warm and humid climate phases while cool late Holocene has been unfavourable. In addition to direct effect of cool climate, the advancing glaciers have restricted the vegetation growth, thus soil accumulation. Since the early 1900's climate has been warming at unprecedented rate, assumingly promoting organic soil establishment. Here we present results of multiple organic soil profiles collected from Svalbard. The profiles have robust chronologies accompanied by soil property analyses, carbon stock estimations and testate amoeba data as a proxy for soil moisture. Our results reveal relatively recent initiation of organic soils across the Isfjorden area. The initiation processes could be linked to glacier retreat, and improvement of growing conditions and soil stabilization. Carbon stock analyses suggested that our sites are hot spots for organic matter accumulation. Testate amoebae data suggested drying of soil surfaces, but the reason remained unresolved. If continued, such a process may lead to carbon release. Our data suggest that detailed palaeoecological data from the Arctic is needed to depict the on-going processes and to estimate future trajectories. [ABSTRACT FROM AUTHOR]

Published

2022

264. Metabolic and ecological controls on the stable carbon isotopic composition of archaeal (isoGDGT and BDGT) and bacterial (brGDGT) lipids in wetlands and lignites.

Author

Blewett, J., Elling, F.J., Naafs, B.D.A., Kattein, L., Evans, T.W., Lauretano, V., Gallego-Sala, A.V., Pancost, R.D., and Pearson, A.

Subjects

*CARBON isotopes, *ETHER lipids, *WETLANDS, *LIGNITE, *LIPIDS, *CARBON metabolism

Abstract

The glycerol dialkyl glycerol tetraether (GDGT) lipids of archaea and bacteria have been extensively studied in both modern and ancient wetlands, but their specific biological sources and biogeochemical significance in such settings remain unclear. The stable carbon isotopic composition of GDGTs, and associated tetraether lipids such as butanetriol - DGTs (BDGTs), can help reveal aspects of the carbon metabolism of their source organism. Here we present an in-depth compound-specific analyses of archaeal (isoGDGTs and BDGT-0) and bacterial (brGDGTs) tetraether lipid δ13C values from the Florida Everglades wetland, supplemented by 16S rRNA gene profiling of the archaeal community. We interpret this alongside GDGT δ13C analyses from three additional freshwater wetland sediments, and two ancient wetland deposits (lignites) from the Miocene. Our data suggests that isoGDGT-0 δ13C values, which range from –22.5‰ to −36.5‰ across our wetland sites, could to some degree reflect the relative importance of the acetotrophic and CO 2 -reducing hydrogenotrophic methanogenic pathways, though definitively delineating between the two is challenging due to (a) potential incorporation of dissolved inorganic carbon (DIC) by CO 2 reducers, and (b) the diluting effect of GDGTs derived from seemingly heterotrophic/fermentative Bathyarchaeia, the most abundant archaeal class in the Everglades. In the Everglades, which harbours abundant Methanomassiliicoccales, BDGT-0 is significantly more 13C-depleted than all other lipids, with a δ13C signature at certain depths (∼−40.0 to −45.0‰) that is consistent with an important source from these (likely) methylotrophic methanogens. This adds to a growing body of evidence on the underappreciated role of methylotrophic methanogenesis, largely driven by Methanomassiliicoccales , in the freshwater methane cycle. However, slightly more 13C-enriched values (∼−35.0‰) at certain depths in the same site provide evidence for additional, possibly heterotrophic sources under certain conditions, and BDGT-0 δ13C values in the Miocene lignite (≈ δ13C of TOC) are consistent with a solely heterotrophic source. Where available for measurement, δ13C values of isoGDGTs-1 to -3, averaging –32.7 ± 2.3‰, were significantly more 13C-depleted than isoGDGT-0, suggesting a different mixture of sources, likely including an autotrophic/mixotrophic component derived from archaea belonging to the Crenarchaeota, Nitrososphaeria (formerly Thaumarchaeota) and/or MBG-D/DHVEG-1. Finally, brGDGT δ13C values are generally consistent with their proposed bacterial heterotrophic origin and biosynthetic effects, averaging out at around 4‰ depleted relative to total organic carbon (TOC). Importantly, we find no significant variation between the δ13C values of different brGDGTs across our wetland types. This highlights that spatial and temporal changes in commonly applied brGDGT-based proxies likely do not co-occur with changes in the heterotrophic lifestyle of their producer(s), discounting a possible confounding factor in brGDGT palaeothermometry. Taken together, our results yield insights into wetland archaeal communities and the lipids they produce, and underline the applicability of tetraether δ13C analyses in probing aspects of microbial carbon cycling in modern and ancient wetland sediments. [ABSTRACT FROM AUTHOR]

Published

2022

265. Low‐salinity transitions drive abrupt microbial response to sea‐level change.

Author

Whittle, Alex, Barnett, Robert L., Charman, Dan J., Gallego‐Sala, Angela V., and de Vries, Franciska

Subjects

*ABSOLUTE sea level change, *SOIL microbiology, *SOIL salinity, *CARBON sequestration, *BARRIER islands, *COASTAL ecology, *SALINITY

Abstract

The salinisation of many coastal ecosystems is underway and is expected to continue into the future because of sea‐level rise and storm intensification brought about by the changing climate. However, the response of soil microbes to increasing salinity conditions within coastal environments is poorly understood, despite their importance for nutrient cascading, carbon sequestration and wider ecosystem functioning. Here, we demonstrate deterioration in the productivity of a top‐tier microbial group (testate amoebae) with increasing coastal salinity, which we show to be consistent across phylogenetic groups, salinity gradients, environment types and latitude. Our results show that microbial changes occur in the very early stages of marine inundation, presaging more radical changes in soil and ecosystem function and providing an early warning of coastal salinisation that could be used to improve coastal planning and adaptation. [ABSTRACT FROM AUTHOR]

Published

2022

266. Effects of temperature and pH on archaeal membrane lipid distributions in freshwater wetlands.

Author

Blewett, J., Naafs, B.D.A., Gallego-Sala, A.V., and Pancost, R.D.

Subjects

*MEMBRANE lipids, *WETLAND soils, *TEMPERATURE effect, *WETLANDS, *PH effect, *ISOMERS

Abstract

• IsoGDGT cyclisation is linked to pH/temperature, but controls are complex. • The relative abundance of early/late-eluting isoGDGT isomers changes with pH. • Early-eluting isoGDGT isomers can dominate (∼70%) in near-neutral pH wetlands. • BDGT producers, possibly methanogens, are likely selected for by near-neutral pH. • Me-GDGTs distributions vary, reflecting changing sources/membrane adaptation. Freshwater wetlands harbour diverse archaeal communities and associated membrane lipid assemblages, but the effect of environmental factors (e.g. pH and temperature) on the distribution of these lipids is relatively poorly constrained. Here we explore the effects of temperature and pH on archaeal core-lipid and intact polar lipid (IPL) derived core lipid distributions in a range of wetlands. We focus, not only on the commonly studied isoprenoidal glycerol dialkyl glycerol tetraethers (isoGDGTs), but also widen our analyses to include more recently identified, but relatively widespread, archaeal lipids such as isoGDGT isomers, methylated isoGDGTs (Me-GDGTs), and butanetriol and pentanetriol tetraethers (BDGTs and PDGTs). Based on multivariate analysis and a globally distributed set of wetlands, we find that the degree of isoGDGT cyclisation does increase along with temperature and pH in wetlands. However, and unlike in some other settings, this relationship is obscured in simple scatterplots due to the incorporation of isoGDGTs from highly diverse archaeal sources with multiple ring-temperature or ring-pH relationships. We further show that the relative abundance of early eluting to later eluting isoGDGT isomers increases with pH, representing a previously unknown and seemingly widespread archaeal membrane homeostasis mechanism or taxonomic signal. The distribution and abundance of crenarchaeol, a marker for Thaumarchaeota, demonstrates that in wetlands these Archaea, likely involved in ammonia oxidation, are restricted primarily to the generally drier soil/sediment surface and typically are more abundant in circumneutral pH settings. We identify Me-GDGTs and Me-isoGMGTs (homologs of isoGDGTs and isoGMGTs, but with additional methylation on the biphytanyl chain) as ubiquitous in wetlands, but variation in their abundance and distribution suggests changing source communities and/or membrane adaptation. The high relative abundance of BDGTs and PDGTs in the perennially anoxic part of the peat profile (catotelm), as well as their elevated abundance in a circumneutral pH wetland, is consistent with an important input from their only known culture source, belonging to the methanogenic Methanomassiliicoccales. Our results underline the diversity of archaeal membrane lipids preserved in wetlands and provide a baseline for the use of archaeal lipid distributions in wetlands as tracers of recent or ancient climate and biogeochemistry. [ABSTRACT FROM AUTHOR]

Published

2020

267. An assessment of oil palm plantation aboveground biomass stocks on tropical peat using destructive and non-destructive methods.

Author

Lewis, Kennedy, Rumpang, Elisa, Kho, Lip Khoon, McCalmont, Jon, Teh, Yit Arn, Gallego-Sala, Angela, and Hill, Timothy Charles

Subjects

*OIL palm, *PLANTATIONS, *BIOMASS, *CARBON, *MORTALITY

Abstract

The recent expansion of oil palm (OP, Elaeis guineensis) plantations into tropical forest peatlands has resulted in ecosystem carbon emissions. However, estimates of net carbon flux from biomass changes require accurate estimates of the above ground biomass (AGB) accumulation rate of OP on peat. We quantify the AGB stocks of an OP plantation on drained peat in Malaysia from 3 to 12 years after planting using destructive harvests supported by non-destructive surveys of a further 902 palms. Peat specific allometric equations for palm (R2 = 0.92) and frond biomass are developed and contrasted to existing allometries for OP on mineral soils. Allometries are used to upscale AGB estimates to the plantation block-level. Aboveground biomass stocks on peat accumulated at ~6.39 ± 1.12 Mg ha−1 per year in the first 12 years after planting, increasing to ~7.99 ± 0.95 Mg ha−1 yr−1 when a 'perfect' plantation was modelled. High inter-palm and inter-block AGB variability was observed in mature classes as a result of variations in palm leaning and mortality. Validation of the allometries defined and expansion of non-destructive inventories across alternative plantations and age classes on peat would further strengthen our understanding of peat OP AGB accumulation rates. [ABSTRACT FROM AUTHOR]

Published

2020

268. Salt-Enrichment Impact on Biomass Production in a Natural Population of Peatland Dwelling Arcellinida and Euglyphida (Testate Amoebae).

Author

Whittle, Alex, Amesbury, Matthew J., Charman, Dan J., Hodgson, Dominic A., Perren, Bianca B., Roberts, Stephen J., and Gallego-Sala, Angela V.

Subjects

*BIOMASS production, *BIOTIC communities, *AMOEBA, *ECOLOGICAL impact, *SOIL salinity, *PERMAFROST ecosystems

Abstract

Unicellular free-living microbial eukaryotes of the order Arcellinida (Tubulinea; Amoebozoa) and Euglyphida (Cercozoa; SAR), commonly termed testate amoebae, colonise almost every freshwater ecosystem on Earth. Patterns in the distribution and productivity of these organisms are strongly linked to abiotic conditions—particularly moisture availability and temperature—however, the ecological impacts of changes in salinity remain poorly documented. Here, we examine how variable salt concentrations affect a natural community of Arcellinida and Euglyphida on a freshwater sub-Antarctic peatland. We principally report that deposition of wind-blown oceanic salt-spray aerosols onto the peatland surface corresponds to a strong reduction in biomass and to an alteration in the taxonomic composition of communities in favour of generalist taxa. Our results suggest novel applications of this response as a sensitive tool to monitor salinisation of coastal soils and to detect salinity changes within peatland palaeoclimate archives. Specifically, we suggest that these relationships could be used to reconstruct millennial scale variability in salt-spray deposition—a proxy for changes in wind-conditions—from sub-fossil communities of Arcellinida and Euglyphida preserved in exposed coastal peatlands. [ABSTRACT FROM AUTHOR]

Published

2019

269. Insights for restoration: Reconstructing the drivers of long-term local fire events and vegetation turnover of a tropical peatland in Central Kalimantan.

Author

Ramdzan, Khairun Nisha Mohamed, Moss, Patrick T., Jacobsen, Geraldine, Gallego-Sala, Angela, Charman, Dan, Harrison, Mark E., Page, Susan, Mishra, Shailendra, Wardle, David A., Jaya, Adi, Aswandi, Nasir, Darmae, and Yulianti, Nina

Subjects

*TROPICAL ecosystems, *WILDFIRES, *PALEOECOLOGY, *ANALYTICAL geochemistry, *SEA level, *FOREST fires, EL Nino

Abstract

Fire events in tropical peatlands often relate to dry peat conditions associated with climate variability (drought) and anthropogenic-driven ecosystem degradation. However, drought is not the only driver of long-term fire events and peatland ecosystem changes. This study used palaeoecological and geochemical proxies to investigate the long-term drivers of charcoal influx to identify local fires and examine the associated responses to the tropical peatland ecosystem in Central Kalimantan, Indonesia. The results showed local fire events increased after 756 cal. yr BP, and possible drivers of charcoal influx include changes in sea level, increased frequency of El Niño events, increased biomass, and anthropogenically-driven ecosystem degradation. However, the vegetation composition showed changes since ∼2300 cal. yr BP from a mix of peat swamp forest (PSF) and open vegetation (OV) during the late Holocene (∼2300 to 1129 cal. yr BP), to predominantly PSF from 1128 to 375 cal. yr BP, dry lowland mixed with swamp forest (LMS) and open vegetation (OV) from 374 to 135 cal. yr BP, and predominantly OV and freshwater swamp forest (FSF) from 134 to −62 cal. yr BP. The possible drivers of the vegetation turnover were hydrological conditions and the availability of peat nutrients, while the vegetation turnover affected the accumulation and decomposition of recalcitrant organic matter in peat. The thresholds of the peatland ecosystems over longer-term timeframes provided the following restoration insights: 1) PSF species (i.e. Eurya and Ilex) showed high fire tolerance and increased in abundance up to charcoal influx threshold of ∼23 grains mm−2 cm−3 yr−1 while LMS and OV species increased up to a lower threshold of ∼13 grains mm−2 cm−3 yr−1before declining; 2) PSF species expanded during periods of wet conditions and high peat nutrients (i.e. TN - enriched); and 3) Future revegetation in the region can focus on tree taxa such as Euphorbiaceae, Arenga, Ficus , and Trema as they were historically able to thrive in fire events and dry hydrological conditions. • Palaeoecology and geochemical analysis of peat inform on long-term fire and alterations to the hydrology and peat conditions. • Charcoal abundance in peat can be due to changes in sea level, hydroclimate, and biomass. • Vegetation composition changed over time as a result of fire regime, peatland hydrology and nutrient status. • Peatland ecosystem changes resulted in the shift from swamp to dryland vegetation. • The thresholds of the vegetation species that can cope with fire provide restoration insights. [ABSTRACT FROM AUTHOR]

Published

2023

270. The role of climate change in regulating Arctic permafrost peatland hydrological and vegetation change over the last millennium.

Author

Zhang, Hui, Piilo, Sanna R., Amesbury, Matthew J., Charman, Dan J., Gallego-Sala, Angela V., and Väliranta, Minna M.

Subjects

*PERMAFROST, *CLIMATE change, *HYDROLOGY, *VEGETATION dynamics, *PEATLANDS

Abstract

Climate warming has inevitable impacts on the vegetation and hydrological dynamics of high-latitude permafrost peatlands. These impacts in turn determine the role of these peatlands in the global biogeochemical cycle. Here, we used six active layer peat cores from four permafrost peatlands in Northeast European Russia and Finnish Lapland to investigate permafrost peatland dynamics over the last millennium. Testate amoeba and plant macrofossils were used as proxies for hydrological and vegetation changes. Our results show that during the Medieval Climate Anomaly (MCA), Russian sites experienced short-term permafrost thawing and this induced alternating dry-wet habitat changes eventually followed by desiccation. During the Little Ice Age (LIA) both sites generally supported dry-hummock habitats, at least partly driven by permafrost aggradation. However, proxy data suggest that occasionally, MCA habitat conditions were drier than during the LIA, implying that evapotranspiration may create important additional eco-hydrological feedback mechanisms under warm conditions. All sites showed a tendency towards dry conditions as inferred from both proxies starting either from ca . 100 years ago or in the past few decades after slight permafrost thawing, suggesting that recent warming has stimulated surface desiccation rather than deeper permafrost thawing. This study shows links between two important controls over hydrology and vegetation changes in high-latitude peatlands: direct temperature-induced surface layer response and deeper permafrost layer-related dynamics. These data provide important backgrounds for predictions of Arctic permafrost peatlands and related feedback mechanisms. Our results highlight the importance of increased evapotranspiration and thus provide an additional perspective to understanding of peatland-climate feedback mechanisms. [ABSTRACT FROM AUTHOR]

Published

2018

271. Introducing global peat-specific temperature and pH calibrations based on brGDGT bacterial lipids.

Author

Naafs, B.D.A., Inglis, G.N., Zheng, Y., Amesbury, M.J., Biester, H., Bindler, R., Blewett, J., Burrows, M.A., del Castillo Torres, D., Chambers, F.M., Cohen, A.D., Evershed, R.P., Feakins, S.J., Gałka, M., Gallego-Sala, A., Gandois, L., Gray, D.M., Hatcher, P.G., Honorio Coronado, E.N., and Hughes, P.D.M.

Subjects

*BACTERIAL lipids, *PH effect, *ATMOSPHERIC temperature, *CLIMATE change, *CALIBRATION

Abstract

Glycerol dialkyl glycerol tetraethers (GDGTs) are membrane-spanning lipids from Bacteria and Archaea that are ubiquitous in a range of natural archives and especially abundant in peat. Previous work demonstrated that the distribution of bacterial branched GDGTs (brGDGTs) in mineral soils is correlated to environmental factors such as mean annual air temperature (MAAT) and soil pH. However, the influence of these parameters on brGDGT distributions in peat is largely unknown. Here we investigate the distribution of brGDGTs in 470 samples from 96 peatlands around the world with a broad mean annual air temperature (−8 to 27 °C) and pH (3–8) range and present the first peat-specific brGDGT-based temperature and pH calibrations. Our results demonstrate that the degree of cyclisation of brGDGTs in peat is positively correlated with pH, pH = 2.49 × CBT peat + 8.07 ( n = 51, R 2 = 0.58, RMSE = 0.8) and the degree of methylation of brGDGTs is positively correlated with MAAT, MAAT peat (°C) = 52.18 × MBT 5me ′ − 23.05 ( n = 96, R 2 = 0.76, RMSE = 4.7 °C). These peat-specific calibrations are distinct from the available mineral soil calibrations. In light of the error in the temperature calibration (∼4.7 °C), we urge caution in any application to reconstruct late Holocene climate variability, where the climatic signals are relatively small, and the duration of excursions could be brief. Instead, these proxies are well-suited to reconstruct large amplitude, longer-term shifts in climate such as deglacial transitions. Indeed, when applied to a peat deposit spanning the late glacial period (∼15.2 kyr), we demonstrate that MAAT peat yields absolute temperatures and relative temperature changes that are consistent with those from other proxies. In addition, the application of MAAT peat to fossil peat (i.e. lignites) has the potential to reconstruct terrestrial climate during the Cenozoic. We conclude that there is clear potential to use brGDGTs in peats and lignites to reconstruct past terrestrial climate. [ABSTRACT FROM AUTHOR]

Published

2017

272. Regional variability in peatland burning at mid-to high-latitudes during the Holocene.

Author

Sim, Thomas G., Swindles, Graeme T., Morris, Paul J., Baird, Andy J., Gallego-Sala, Angela V., Wang, Yuwan, Blaauw, Maarten, Camill, Philip, Garneau, Michelle, Hardiman, Mark, Loisel, Julie, Vӓliranta, Minna, Anderson, Lysanna, Apolinarska, Karina, Augustijns, Femke, Aunina, Liene, Beaulne, Joannie, Bobek, Přemysl, Borken, Werner, and Broothaerts, Nils

Subjects

*HOLOCENE Epoch, *LITTLE Ice Age, *PEATLAND restoration, *DROUGHTS, *FRAGMENTED landscapes, *PEATLANDS, *CLIMATE change, *COASTS

Abstract

Northern peatlands store globally-important amounts of carbon in the form of partly decomposed plant detritus. Drying associated with climate and land-use change may lead to increased fire frequency and severity in peatlands and the rapid loss of carbon to the atmosphere. However, our understanding of the patterns and drivers of peatland burning on an appropriate decadal to millennial timescale relies heavily on individual site-based reconstructions. For the first time, we synthesise peatland macrocharcoal records from across North America, Europe, and Patagonia to reveal regional variation in peatland burning during the Holocene. We used an existing database of proximal sedimentary charcoal to represent regional burning trends in the wider landscape for each region. Long-term trends in peatland burning appear to be largely climate driven, with human activities likely having an increasing influence in the late Holocene. Warmer conditions during the Holocene Thermal Maximum (∼9–6 cal. ka BP) were associated with greater peatland burning in North America's Atlantic coast, southern Scandinavia and the Baltics, and Patagonia. Since the Little Ice Age, peatland burning has declined across North America and in some areas of Europe. This decline is mirrored by a decrease in wider landscape burning in some, but not all sub-regions, linked to fire-suppression policies, and landscape fragmentation caused by agricultural expansion. Peatlands demonstrate lower susceptibility to burning than the wider landscape in several instances, probably because of autogenic processes that maintain high levels of near-surface wetness even during drought. Nonetheless, widespread drying and degradation of peatlands, particularly in Europe, has likely increased their vulnerability to burning in recent centuries. Consequently, peatland restoration efforts are important to mitigate the risk of peatland fire under a changing climate. Finally, we make recommendations for future research to improve our understanding of the controls on peatland fires. • We reconstruct peatland burning trends at mid-to high-latitudes for the Holocene. • Variation in climate, human activity and peatland processes influences burning. • Peatlands demonstrate lower susceptibility to burning than the wider landscape. • We outline the steps needed to better understand the drivers of peatland fire. [ABSTRACT FROM AUTHOR]

Published

2023

273. Inhibición de la interacción RRE-Rev del virus VIH-1 por análogos de clomifeno

Author

López Palau, Jesús Ignacio, Moreno Gálvez, Ángela, and Gallego Sala, José

Subjects

2415 Biología Molecular, VIH, HIV, Subdominio IIBh, Anisotropía, Fluorescence, 3314 Tecnología Médica, Horquilla, Clomiphene, RRE-Rev, Fluorescencia, Anisotropy, Subdomain, 22 Física, Hairpin, Clomifeno

Abstract

El VIH continúa siendo una de las enfermedades más importantes del mundo actual. La necesidad de eliminar los reservorios del virus ha provocado, en los últimos años un aumento en la investigación para hallar un tratamiento eficaz frente a ellos. Encontrar una molécula capaz de unirse al ARN para inhibir la replicación del virus no es fácil, pero en los últimos años se han ido haciendo progresos en este ámbito. En este trabajo, se estudia la capacidad inhibitoria de compuestos análogos de clomifeno sobre la interacción entre el subdominio IIB de la secuencia RRE del VIH-1 y la proteína Rev, con la finalidad de identificar nuevos inhibidores de dicha interacción con potencial actividad antiviral. Para ello se llevan a cabo una serie de ensayos complementarios empleando dos técnicas, la intensidad de fluorescencia y la anisotropía de fluorescencia, para determinar tanto la Kd de los compuestos como la IC50 de los mismos. También, se realizan ensayos de optimización para observar si los compuestos presentan autofluorescencia, comprobar la cinética de la reacción y un ensayo comparativo para averiguar si un aumento en la secuencia de la horquilla IIBh de RRE comporta un cambio en el ensayo de anisotropía aumentando su sensibilidad. Los resultados de los experimentos realizados muestran que un aumento en la longitud del dominio de IIBh no comporta un aumento en la anisotropía. Los compuestos presentan una leve autofluorescencia a altas concentraciones. La cinética de la reacción es muy rápida. En cuanto a los compuestos, existe un potencial de dichas moléculas en concreto de los compuestos 4´Cl-clomiphene, Cis-Clomiphene y sobre todo el 4´OH-Tamoxifen, de inhibir la interacción RRE-Rev, pero se necesitarán más ensayos y réplicas con distintas técnicas para poder afirmar que estos compuestos pueden utilizarse para el desarrollo de inhibidores RRE-Rev. HIV remains one of the most important diseases in the world today. The need to eliminate virus reservoirs has led to a significant increase in research focused on finding an effective treatment against them. Identifying a molecule capable of binding to RNA to inhibit virus replication is not easy, but progress has been made in this area in recent years. In this work, the inhibitory capacity of clomiphene analogs on the interaction between subdomain IIB of the HIV-1 RRE and the Rev protein is studied in order to identify new RRE-Rev inhibitors with potential antiviral activity. To accomplish this goal, a series of complementary fluorescence intensity and fluorescence anisotropy assays have been performed to determine the Kd and IC50 values of these compounds. Optimisation tests were also carried out to evaluate whether the compounds had autofluorescence, to check the reaction kinetics, and to find out whether an increase in the length of the IIB RNA hairpin improved the results of the anisotropy experiments. The results of the experiments indicated that an increase in the length of the IIBh domain did not lead to an increase in anisotropy. The compounds had mild autofluorescence at high concentrations. The reaction kinetics were very rapid. As for the compounds, three of them, in particular 4-Cl-clomiphene, Cis-Clomiphene and especially 4-OH-Tamoxifen, were capable of inhibiting the RRE-Rev, but further experiments with additional techniques will be needed to confirm that these compounds can be used for the development of RRE-Rev inhibitors. Biotecnología

Published

2022

274. How far from a pristine state are the peatlands in the Białowieża Primeval Forest (CE Europe) – Palaeoecological insights on peatland and forest development from multi-proxy studies.

Author

Gałka, Mariusz, Knorr, Klaus-Holger, Tobolski, Kazimierz, Gallego-Sala, Angela, Kołaczek, Piotr, Lamentowicz, Mariusz, Kajukało-Drygalska, Katarzyna, and Marcisz, Katarzyna

Subjects

*PALEOECOLOGY, *BIOSPHERE reserves, *ECOLOGICAL disturbances, *PEATLAND restoration, *PEATLANDS, *PLANT succession, *TRACE metals, *CHARCOAL

Abstract

[Display omitted] • Multi-proxy palaeoecological studies in the Białowieża Primary Forest. • Palaeoecological analysis as a reliable tool to determinate state of the peatland and forest ecosystems conditions. • Peatland ecosystems in the Białowieża Forest may no longer be in a pristine state. • Permanent high fire activity between ca. 1650 and 1920 in the Białowieża Forest. The Białowieża Primeval Forest is one of the most pristine forested and peatland areas in Europe, as recognized by its status as the World Biosphere Reserve. Palaeoecological analyzes offer the possibility of establishing a record of ecosystem change over time, and therefore setting reference conditions for their assessment, protection and restoration. To assess the impact of hydrological changes, fire and pollution (dust, metals from smelting) on peatland and forest ecosystems, we carried out high-resolution, multi-proxy palaeoecological investigations of two peat cores (50 cm long) from nearby locations at a peatland located in the protected area (nature reserve) of the Białowieża Forest (CE Poland). Our study revealed that: i) between about 1780 and 1920 CE high fire activity likely caused by humans led to a partly decline in dwarf shrubs at the sampling sites; ii) between about 1910 and 1930 CE distinctive changes in local and regional plant succession took place that can be considered as a sign of disturbance in the peatland ecosystems; iii) during the last three decades we recorded a recent decrease of trace metals and pollen indicating a decrease in human activity. These changes are synchronous with a decrease of industrial activity and curbing of emission through legislation as well as the ongoing depopulation of villages in E Poland that started in 1990. Our data suggest that even well-preserved peatlands, located in protected areas might be far from their pristine state, predominantly due to disturbance effects from the past still lingering on. Nevertheless, the studied area remains one of the best-preserved forest ecosystems in Europe, despite the negative impact of human activity (deforestation, fires, hunting) over the past few centuries. [ABSTRACT FROM AUTHOR]

Published

2022

275. Carbon stable isotopes as a palaeoclimate proxy in vascular plant dominated peatlands.

Author

Amesbury, M.J., Charman, D.J., Newnham, R.M., Loader, N.J., Goodrich, J.P., Royles, J., Campbell, D.I., Roland, T.P., and Gallego-Sala, A.

Subjects

*CARBON isotopes, *STABLE isotopes, *PALEOCLIMATOLOGY, *VASCULAR plants, *PEATLANDS, *ECOSYSTEMS

Abstract

Carbon stable isotope (δ 13 C) records from vascular plant dominated peatlands have been used as a palaeoclimate proxy, but a better empirical understanding of fractionation processes in these ecosystems is required. Here, we test the potential of δ 13 C analysis of ombrotrophic restiad peatlands in New Zealand, dominated by the wire rush ( Empodisma spp.), to provide a methodology for developing palaeoclimatic records. We took surface plant samples alongside measurements of water table depth and (micro)climate over spatial (six sites spanning > 10° latitude) and temporal (monthly measurements over 1 year) gradients and analysed the relationships between cellulose δ 13 C values and environmental parameters. We found strong, significant negative correlations between δ 13 C and temperature, photosynthetically active radiation and growing degree days above 0 °C. No significant relationships were observed between δ 13 C and precipitation, relative humidity, soil moisture or water table depth, suggesting no growing season water limitation and a decoupling of the expected link between δ 13 C in vascular plants and hydrological variables. δ 13 C of Empodisma spp. roots may therefore provide a valuable temperature proxy in a climatically sensitive region, but further physiological and sub-fossil calibration studies are required to fully understand the observed signal. [ABSTRACT FROM AUTHOR]

Published

2015

276. Drivers of Holocene peatland carbon accumulation across a climate gradient in northeastern North America.

Author

Charman, Dan J., Amesbury, Matthew J., Hinchliffe, William, Hughes, Paul D.M., Mallon, Gunnar, Blake, William H., Daley, Tim J., Gallego-Sala, Angela V., and Mauquoy, Dmitri

Subjects

*HOLOCENE Epoch, *CLIMATE change, *CARBON cycle, *CARBON sequestration, *RADIOCARBON dating

Abstract

Peatlands are an important component of the Holocene global carbon (C) cycle and the rate of C sequestration and storage is driven by the balance between net primary productivity and decay. A number of studies now suggest that climate is a key driver of peatland C accumulation at large spatial scales and over long timescales, with warmer conditions associated with higher rates of C accumulation. However, other factors are also likely to play a significant role in determining local carbon accumulation rates and these may modify past, present and future peatland carbon sequestration. Here, we test the importance of climate as a driver of C accumulation, compared with hydrological change, fire, nitrogen content and vegetation type, from records of C accumulation at three sites in northeastern North America, across the N–S climate gradient of raised bog distribution. Radiocarbon age models, bulk density values and %C measurements from each site are used to construct C accumulation histories commencing between 11,200 and 8000 cal. years BP. The relationship between C accumulation and environmental variables (past water table depth, fire, peat forming vegetation and nitrogen content) is assessed with linear and multivariate regression analyses. Differences in long-term rates of carbon accumulation between sites support the contention that a warmer climate with longer growing seasons results in faster rates of long-term carbon accumulation. However, mid-late Holocene accumulation rates show divergent trends, decreasing in the north but rising in the south. We hypothesise that sites close to the moisture threshold for raised bog distribution increased their growth rate in response to a cooler climate with lower evapotranspiration in the late Holocene, but net primary productivity declined over the same period in northern areas causing a decrease in C accumulation. There was no clear relationship between C accumulation and hydrological change, vegetation, nitrogen content or fire, but early successional stages of peatland growth had faster rates of C accumulation even though temperatures were probably lower at the time. We conclude that climate is the most important driver of peatland accumulation rates over millennial timescales, but that successional vegetation change is a significant additional influence. Whilst the majority of northern peatlands are likely to increase C accumulation rates under future warmer climates, those at the southern limit of distribution may show reduced rates. However, early succession peatlands that develop under future warming at the northern limits of peatland distribution are likely to have high rates of C accumulation and will compensate for some of the losses elsewhere. [ABSTRACT FROM AUTHOR]

Published

2015

277. Seasonal climate drivers of peak NDVI in a series of Arctic peatlands.

Author

Crichton, Katherine A., Anderson, Karen, Charman, Dan J., and Gallego-Sala, Angela

Published

2022

278. Ecology of peatland testate amoebae in Svalbard and the development of transfer functions for reconstructing past water-table depth and pH.

Author

Sim, Thomas G., Swindles, Graeme T., Morris, Paul J., Baird, Andy J., Charman, Dan J., Amesbury, Matthew J., Beilman, Dave, Channon, Alex, and Gallego-Sala, Angela V.

Subjects

*TRANSFER functions, *PEATLAND restoration, *MULTIVARIATE analysis, *AMOEBA, *ECOSYSTEM dynamics, *CURRENT distribution

Abstract

• Testate amoeba distributions are driven by water-table depth and pH in Svalbard. • We develop transfer functions for reconstructing peatland water-table depth and pH. • These represent the most northerly peatland testate amoeba transfer functions. • Weak idiosomic tests preserve poorly but removal has no impact on model performance. • Transfer functions are used to reconstruct peatland dynamics from 800 CE to present. Peatlands are valuable archives of information about past environmental conditions and represent a globally-important carbon store. Robust proxy methods are required to reconstruct past ecohydrological dynamics in high-latitude peatlands to improve our understanding of change in these carbon-rich ecosystems. The High Arctic peatlands in Svalbard are at the northern limit of current peatland distribution and have experienced rapidly rising temperatures of 0.81 °C per decade since 1958. We examine the ecology of peatland testate amoebae in surface vegetation samples from permafrost peatlands on Spitsbergen, the largest island of the Svalbard archipelago, and develop new transfer functions to reconstruct water-table depth (WTD) and pH that can be applied to understand past peatland ecosystem dynamics in response to climate change. These transfer functions are the first of their kind for peatlands in Svalbard and the northernmost developed to date. Multivariate statistical analysis shows that WTD and pore water pH are the dominant controls on testate amoeba species distribution. This finding is consistent with results from peatlands in lower latitudes with regard to WTD and supports work showing that when samples are taken across a long enough trophic gradient, peatland trophic status is an important control on the distribution of testate amoebae. No differences were found between transfer functions including and excluding the taxa with weak idiosomic tests (WISTs) that are most susceptible to decay. The final models for application to fossil samples therefore excluded these taxa. The WTD transfer function demonstrates the best performance (R2 LOO = 0.719, RMSEP LOO = 3.2 cm), but the pH transfer function also performs well (R2 LOO = 0.690, RMSEP LOO = 0.320). The transfer functions were applied to a core from western Spitsbergen and suggest drying conditions ~1750 CE, followed by a trend of recent wetting and increasing pH from ~1920 CE. These new transfer functions allow the reconstruction of past peatland WTD and pH in Svalbard, thereby enabling a greater understanding of long-term ecohydrological dynamics in these rapidly changing ecosystems. [ABSTRACT FROM AUTHOR]

Published

2021

279. Towards a microbial process-based understanding of the resilience of peatland ecosystem service provisioning – A research agenda.

Author

Ritson, Jonathan P., Alderson, Danielle M., Robinson, Clare H., Burkitt, Alexandra E., Heinemeyer, Andreas, Stimson, Andrew G., Gallego-Sala, Angela, Harris, Angela, Quillet, Anne, Malik, Ashish A., Cole, Beth, Robroek, Bjorn J.M., Heppell, Catherine M., Rivett, Damian W., Chandler, Dave M., Elliott, David R., Shuttleworth, Emma L., Lilleskov, Erik, Cox, Filipa, and Clay, Gareth D.

Abstract

Peatlands are wetland ecosystems with great significance as natural habitats and as major global carbon stores. They have been subject to widespread exploitation and degradation with resulting losses in characteristic biota and ecosystem functions such as climate regulation. More recently, large-scale programmes have been established to restore peatland ecosystems and the various services they provide to society. Despite significant progress in peatland science and restoration practice, we lack a process-based understanding of how soil microbiota influence peatland functioning and mediate the resilience and recovery of ecosystem services, to perturbations associated with land use and climate change. We argue that there is a need to: in the short-term , characterise peatland microbial communities across a range of spatial and temporal scales and develop an improved understanding of the links between peatland habitat, ecological functions and microbial processes; in the medium term , define what a successfully restored 'target' peatland microbiome looks like for key carbon cycle related ecosystem services and develop microbial-based monitoring tools for assessing restoration needs; and in the longer term , to use this knowledge to influence restoration practices and assess progress on the trajectory towards 'intact' peatland status. Rapid advances in genetic characterisation of the structure and functions of microbial communities offer the potential for transformative progress in these areas, but the scale and speed of methodological and conceptual advances in studying ecosystem functions is a challenge for peatland scientists. Advances in this area require multidisciplinary collaborations between peatland scientists, data scientists and microbiologists and ultimately, collaboration with the modelling community. Developing a process-based understanding of the resilience and recovery of peatlands to perturbations, such as climate extremes, fires, and drainage, will be key to meeting climate targets and delivering ecosystem services cost effectively. • Although microbes are key to peatland function the underpinning processes are unclear. • Microbial characterisation is needed across a range of sites, depths and conditions. • Temporal and spatial changes in microbial communities need to be linked to functions. • Potential to use microbiome as a monitoring tool for peatland restoration progress • Enhancing microbial communities could improve peatland resilience. [ABSTRACT FROM AUTHOR]

Published

2021

280. IDENTIFICATION OF RNA STRUCTURES MODULATING THE EXPRESSION OF THE mRNA BIOGENESIS FACTOR SUS1

Author

Ali Na Abuqattam, GALLEGO SALA, JOSE, Rodriguez Navarro, Susana, and Universitat Politècnica de València. Departamento de Biotecnología - Departament de Biotecnologia

Subjects

Messenger RNA, Mutant, Intron, mRNA: SUS1, RNA, secondary structure, Biology, NMR, Cell biology, Exon, RNA splicing, SHAPE, Gene, VS ribozyme, SUS1 [mRNA]

Abstract

Sus1 is a conserved protein involved in chromatin remodeling and mRNA biogenesis. The SUS1 gene of Saccharomyces cerevisiae is unusual, as it contains two introns and is alternatively spliced, retaining one or both introns in response to changes in environmental conditions. SUS1 splicing may allow the cell to control Sus1 expression, but the mechanisms that regulate this process remain unknown. In this thesis project, we have investigated whether the structure adopted by SUS1 RNA sequences contributes to regulate the splicing of this gene. Using in silico analyses together with NMR spectroscopy, gel electrophoresis and UV thermal denaturation experiments, we first show that the downstream intron (I2) of SUS1 forms a weakly-stable, 37-nucleotide stem-loop structure containing the branch site near its apical loop and the 3' splice site after the stem terminus. A cellular assay revealed that two of four mutants containing altered I2 structures had significantly impaired SUS1 expression. Semi-quantitative RT-PCR experiments indicated that all mutants accumulated unspliced SUS1 pre-mRNA and/or induced distorted levels of fully spliced mRNA relative to wild-type. Concomitantly, Sus1 cellular functions in histone H2B deubiquitination and mRNA export were affected in I2 hairpin mutants that inhibited splicing. The second part of the thesis project focuses on the exon located between the two introns of the SUS1 gene. This middle exon (E2) can be skipped during splicing, is generated in circular form, and has been found to influence the splicing of the flanking introns, an unusual situation in budding yeast where splicing mainly relies on intron recognition. Using NMR spectroscopy, gel electrophoresis, UV thermal denaturation and ribose 2'-OH modification experiments combined with computational predictions, we show that E2 of SUS1 comprises a conserved double-helical stem topped by a three-way junction. One of the hairpins emerging from the junction exhibited significant thermal stability and was closed by an unusually structured purine-rich loop. This loop contained two consecutive sheared G:A base pairs and was structurally related to the substrate loop of the VS ribozyme. Cellular assays revealed that three mutants containing altered E2 structures had impaired SUS1 expression and that a compensatory mutation restoring the conserved stem recovered expression to wild-type levels. Semi-quantitative RT-PCR experiments indicated that all mutants were capable of altering the quantities of unspliced and/or fully-spliced SUS1 RNA transcripts relative to wildtype. Overall, the results gathered in this thesis project indicate that RNA structures formed by the middle exon and the second intron of the S. cerevisiae SUS1 gene are relevant for splicing and also influence other processes of SUS1 mRNA biogenesis., Sus1 es una proteína conservada implicada en remodelación de cromatina y biogénesis de moléculas de ARNm. El gen SUS1 de Saccharomyces cerevisiae es peculiar, ya que contiene dos intrones y sufre un proceso de ayuste (corte y empalme) alternativo, reteniendo uno o ambos intrones en respuesta a cambios en las condiciones ambientales. El ayuste del ARNpre-m de SUS1 puede permitir a la célula controlar la expresión de la proteína Sus1, pero los mecanismos que regulan este proceso son poco conocidos. En este proyecto de tesis hemos investigado si la estructura adoptada por secuencias de ARN de SUS1 contribuye a regular el proceso de ayuste de este gen. Utilizando análisis in silico junto con espectroscopia de RMN, electroforesis en gel y experimentos de desnaturalización térmica monitorizados por UV, primero demostramos que el ARN del segundo intrón (I2) del gen SUS1 forma una horquilla débilmente estable de 37 nucleótidos. Esta horquilla contiene nucleótidos del sitio de ramificación (branch site) en su bucle apical y nucleótidos del sitio 3' de empalme adyacentes al extremo inferior del tallo. A través de ensayos funcionales descubrimos que dos de cuatro mutantes que alteran la estructura de la horquilla I2 exhibían peor expresión de SUS1. Experimentos de RT-PCR semicuantitativos indicaron que todos los mutantes acumularon ARNpre-m SUS1 no ayustado y/o indujeron cambios en los niveles de ARNm maduro con respecto a la secuencia silvestre. Además, las funciones celulares de Sus1 relativas a desubicuitinación de histona H2B y transporte de ARNm se vieron afectadas en los mutantes de la horquilla I2 que inhibían el proceso de ayuste. La segunda parte de la memoria de tesis se centra en el análisis del exón central (E2) situado entre los dos intrones del gen SUS1. Este exón puede eliminarse durante el proceso de ayuste, se genera en forma circular, e influye en el procesamiento de los intrones adyacentes, una situación inusual para las regiones exónicas de S. cerevisiae, donde el ayuste se basa principalmente en el reconocimiento de intrones. Utilizando experimentos de espectroscopía de RMN, electroforesis en gel, desnaturalización térmica y modificación química combinados con predicciones computacionales, demostramos que el ARN del exón E2 de SUS1 forma un tallo conservado de doble hélice coronado por una intersección de tres hélices. Una de las horquillas que emergen de esta intersección presentó una estabilidad térmica significativa, así como un bucle apical rico en purinas inusualmente estructurado. Este bucle contiene dos pares de bases G:A consecutivos y está estructuralmente relacionado con el bucle de substrato de la ribozima VS. Ensayos celulares revelaron que tres mutantes con estructuras modificadas de E2 exhibían peor expresión de SUS1, y que una mutación compensatoria que restauraba el tallo conservado recuperaba la expresión a los niveles de la secuencia silvestre. Experimentos de RT-PCR semicuantitativos indicaron que todos los mutantes de E2 eran capaces de alterar las cantidades de transcritos ayustados y no ayustados de SUS1 con respecto a la secuencia silvestre. En general, los resultados obtenidos en este proyecto de tesis indican que las estructuras de ARN formadas por el exón central y el segundo intrón del gen SUS1 de S. cerevisiae son relevantes para el ayuste y otros procesos implicados en la biogénesis del ARNm del gen SUS1., Sus1 és una proteïna conservada implicada a la remodelació de la cromatina i la biogènesi de l'ARNm. El gen SUS1 de Saccharomyces cerevisiae és inusual, ja que conté dos introns i s'empalma de manera alternativa, retenint un o ambdós introns en resposta a canvis en les condicions ambientals. L'empalmament de SUS1 pot permetre a la cèl·lula controlar l'expressió de Sus1, però els mecanismes que regulen aquest procés són segueixen sent desconeguts. En aquest projecte de tesi investiguem si l'estructura adoptada per seqüències d'ARN de SUS1 contribueix a regular l'empalmament d'aquest gen. Emprant anàlisi in silico juntament amb espectrometria de RMN, electroforesi en gel i experiments de desnaturalització tèrmica d'UV, es mostra primer que l'intró aigües a baix (I2) de SUS1 forma una estructura de forqueta de 37 nucleòtids feblement estable que conté el lloc de la branca a prop del seu bucle apical; i el lloc d'empalmamnet 3¿ després de l'extrem de la forqueta. Un assaig cel·lular va revelar que dos de quatre mutants que contenien estructures alterades de l'I2 havien modificat significativament l'expressió de SUS1. Els experiments semi-quantitatius de RT-PCR van indicar que tots els mutants acumulaven el pre-ARNm madur respecte al tipus salvatge. Concomitantment, les funcions cel·lulars de Sus1 a la desubiqüitinació de la histona H2B i l'exportació d'ARNm es van veure afectats als mutants de la forqueta d'I2 que inhibeixen l'empalmament. La segona part del projecte de tesi se centra a l'exó situat entre els dos introns del gen SUS1. Aquest exó (E2) es pot ometre durant l'empalmament, es genera amb forma circular, i s'ha trobat que influeix a l'empalmamet dels introns que flanquegen, una situació inusual al llevat on l'empalmament està basat principalment al reconeixement d'introns. Emprant espectroscòpia de RMN, electroforesi en gel, desnaturalització tèrmica d'UV i experiments de modificació de ribosa 2¿-OH combinats amb prediccions computacionals, mostrem que E2 de SUS1 comprén un tall conservat de doble hèlix corornat per una unió de tres vies. Una de les forquetes que emergeixen de la unió, va mostrar una estabilitat tèrmica significativa i va ser tapada per un bucle ric en purina inusualment estructurat. Aquest bucle contenia dos pars de bases G:A tallats consecutivament i estava estructuralment relacionat amb el bucle de substrat del ribozim VS. Els assajos cel·lulars van revelar que tres mutants que contenien estructures alterades de E2 havien alterat l'expressió de SUS1 i que una mutació compensatòria que restaurava el tall conservat recuperava l'expressió a nivells del tipus salvatge. Els assajos cel·lulars van revelat que tres mutants que contenien estructures alterades d'E2 havien alterat l'expressió de SUS1 i que una mutació compensatòria que restaurava el tall conservat recuperava l'expressió a nivell d'un tipus salvatge. Els experiments semi-quantitatius de RT-PCR van indicar que tots els mutants eren capaços d'alterar les quantitats de transcrits d'ARN de SUS1 no empalmats i/o empalmats en relació amb el tipus salvatge. En general, els resultats obtinguts en aquesta investigació indiquen que les estructures d'ARN formades per l'exó mitjà i el segon intró de SUS1 de S. cerevisiae són rellevants per l'empalmament i també influeixen a altres processos de biogènesi de l'ARN de SUS1, Abuqattam, AN. (2017). IDENTIFICATION OF RNA STRUCTURES MODULATING THE EXPRESSION OF THE mRNA BIOGENESIS FACTOR SUS1 [Tesis doctoral no publicada]. Universitat Politècnica de València. doi:10.4995/Thesis/10251/90524, TESIS

Published

2017

281. Interacción entre ácidos nucleicos y ligandos de bajo peso molecular: mecanismos moleculares de reconocimiento específico

Author

González Bulnes, Luis, Gallego Sala, José, and Departament de Química Analítica

Subjects

ARN, ligando, UNESCO::QUÍMICA, ADN, fármaco, SPR, QUÍMICA [UNESCO], RMN, interacción

Abstract

Los ácidos nucleicos desempeñan una gran variedad de funciones bioquímicas y son moléculas básicas para la vida. El estudio de sus complejos con moléculas de bajo peso molecular es esencial para la búsqueda de nuevos agentes terapéuticos basados en la interacción con estas biomoléculas. Tras analizar la estructura de los ácidos nucleicos y los fundamentos de las técnicas experimentales utilizadas, esta tesis se centra en primer lugar en el estudio de la interacción entre ligandos bisnaftalimídicos antitumorales y diferentes secuencias de ADN, con el objetivo de identificar los mecanismos de reconocimiento específico del ADN por parte de estos compuestos. Utilizando una combinación de técnicas biofísicas, primeramente se evaluó el efecto de modificar las secuencias que flanquean el sitio de unión preferido de la bisnaftalimida de referencia elinafide. Se observaron diferencias significativas, especialmente en el caso de complejos flanqueados por tractos A, que manifestaron una afinidad más baja, interacciones de apilamiento más débiles, y procesos dinámicos más rápidos. Por lo tanto, el reconocimiento del ADN por parte de elinafide está fuertemente modulado por efectos indirectos, dependientes de las preferencias conformacionales de cada secuencia. A continuación se estudió el mecanismo de reconocimiento directo del ADN por parte de ligandos bisnaftalimídicos. Los resultados indicaron que este proceso depende fundamentalmente de los contactos electrostáticos establecidos entre el espaciador aminoalquílico de las bisnaftalimidas y los grupos electronegativos de guanina en el surco mayor, que determinan tanto la especificidad de los ligandos por pasos GpC como el proceso de intercalación de los anillos de naftalimida. Además, se concluyó que la interacción entre el ADN y las bisnaftalimidas tiene lugar a través de dos estados: unión al surco e intercalación. En consonancia con este modelo de dos estados, cambios en distintos factores como el pH, la fuerza iónica o la composición de las bases del ADN o los anillos aromáticos de los compuestos tuvieron efectos diferentes en los parámetros de unión determinados por métodos biofísicos habitualmente utilizados en el estudio de complejos formados por ácidos nucleicos. El segundo capítulo de resultados de esta tesis describe el diseño de novo de moléculas p-terfenílicas bilateralmente substituídas y el estudio de su interaccióncon el subdominio IIB del Elemento de Reconocimiento de Rev (RRE) del ARN genómico del VIH-1, con el propósito de bloquear la interacción entre RRE y la alfa -hélice de unión a ARN de Rev y ejercer un efecto inhibitorio sobre la replicación del virus. Para ello se utilizó una combinación de métodos biofísicos y de técnicas computacionales basadas en estructura. Los resultados demostraron que los sustituyentes bilaterales de estas moléculas se proyectan en un ángulo de 360o, y que estos ligandos actúan como miméticos de Rev en su complejo con RRE, siendo capaces de desplazar la alfa -hélice del bucle IIB de RRE. Por último, experimentos en cultivo celular pusieron de manifiesto que algunos compuestos p-terfenílicos son capaces de bloquear la replicación del VIH-1 sin mostrar una toxicidad celular significativa, actuando además en pasos transcripcionales o post-transcripcionales del ciclo de vida del virus.

Published

2015

282. Tropical peat composition may provide a negative feedback on fire occurrence and severity.

Author

Crawford AJ, Belcher CM, New S, Gallego-Sala A, Swindles GT, Page S, Blyakharchuk TA, Cadillo-Quiroz H, Charman DJ, Gałka M, Hughes PDM, Lähteenoja O, Mauquoy D, Roland TP, and Väliranta M

Abstract

Loss of peat through increased burning will have major impacts on the global carbon cycle. In a normal hydrological state, the risk of fire propagation is largely controlled by peat bulk density and moisture content. However, where humans have interfered with the moisture status of peat either via drainage, or indirectly via climate change, we hypothesise that its botanical composition will become important to flammability, such that peats from different latitudes might have different compositionally-driven susceptibility to ignition. We use pyrolysis combustion flow calorimetry to determine the temperature of maximum thermal decomposition (T max ) of peats from different latitudes, and couple this to a botanical composition analysis. We find that tropical peat has higher T max than other regions, likely on account of its higher wood content which appears to convey a greater resistance to ignition. This resistance also increases with depth, which means that loss of surface peat in tropical regions may lead to a reduction in the subsequent ignitability of deeper peat layers as they are exposed, potentially resulting in a negative feedback on increased fire occurrence and severity., (© 2024. The Author(s).)

Published

2024

283. Topographic and climatic controls of peatland distribution on the Tibetan Plateau.

Author

Sun J, Gallego-Sala A, and Yu Z

Abstract

The Tibetan Plateau (TP) hosts a variety of mountain peatlands that are sensitive to the amplified warming in this region. However, we still lack a basic understanding of environmental and climatic factors controlling peatland distribution in the region. Here we use a bioclimatic envelope model (PeatStash) and environmental analysis that utilise three peatland datasets-(a) the well-studied Zoige peatland complex, (b) a literature-based dataset of TP peatlands sites, and (c) an existing global peatland map (PEATMAP)-to investigate major drivers of peatland distribution in the TP. The Zoige peatland complex is defined by gentle slopes (< 2°), mean annual temperature at 0-2 °C, and soil moisture index > 1.7, much narrower thresholds than those stemming from PEATMAP. Using these narrower thresholds to predict future changes, we found that the Zoige peatland complex will shrink greatly under full-range future warming scenarios (both SSP1-2.6 and SSP5-8.5). Modelling peatland distribution in the entire TP remains challenging because accurate environmental and climate data at high resolution and a reliable peatland distribution map are still lacking. Improved peatland mapping supported by ground-truthing is necessary to understand drivers of peatland distribution, assess carbon storage and other ecosystem services, and predict the TP's peatlands fate under climate change., (© 2023. Springer Nature Limited.)

Published

2023

284. Emission of methane from plants.

Author

Nisbet RE, Fisher R, Nimmo RH, Bendall DS, Crill PM, Gallego-Sala AV, Hornibrook ER, López-Juez E, Lowry D, Nisbet PB, Shuckburgh EF, Sriskantharajah S, Howe CJ, and Nisbet EG

Subjects

Animals, Chlamydomonas metabolism, Methane metabolism, Phylogeny, Plants genetics, Plants metabolism

Abstract

It has been proposed that plants are capable of producing methane by a novel and unidentified biochemical pathway. Emission of methane with an apparently biological origin was recorded from both whole plants and detached leaves. This was the first report of methanogenesis in an aerobic setting, and was estimated to account for 10-45 per cent of the global methane source. Here, we show that plants do not contain a known biochemical pathway to synthesize methane. However, under high UV stress conditions, there may be spontaneous breakdown of plant material, which releases methane. In addition, plants take up and transpire water containing dissolved methane, leading to the observation that methane is released. Together with a new analysis of global methane levels from satellite retrievals, we conclude that plants are not a major source of the global methane production.

Published

2009