David J. Fallon scite author profile

Drained peat soils are a significant source of greenhouse gas (GHG) emissions to the atmosphere. Rewetting these soils is considered an important climate change mitigation tool to reduce emissions and create suitable conditions for carbon sequestration. Long-term monitoring is essential to capture interannual variations in GHG emissions and associated environmental variables and to reduce the uncertainty linked with GHG emission factor calculations. In this study, we present GHG balances: carbon dioxide (CO ), methane (CH ) and nitrous oxide (N O) calculated for a 5-year period at a rewetted industrial cutaway peatland in Ireland (rewetted 7 years prior to the start of the study); and compare the results with an adjacent drained area (2-year data set), and with ten long-term data sets from intact (i.e. undrained) peatlands in temperate and boreal regions. In the rewetted site, CO exchange (or net ecosystem exchange (NEE)) was strongly influenced by ecosystem respiration (R ) rather than gross primary production (GPP). CH emissions were related to soil temperature and either water table level or plant biomass. N O emissions were not detected in either drained or rewetted sites. Rewetting reduced CO emissions in unvegetated areas by approximately 50%. When upscaled to the ecosystem level, the emission factors (calculated as 5-year mean of annual balances) for the rewetted site were (±SD) -104 ± 80 g CO -C m yr (i.e. CO sink) and 9 ± 2 g CH -C m yr (i.e. CH source). Nearly a decade after rewetting, the GHG balance (100-year global warming potential) had reduced noticeably (i.e. less warming) in comparison with the drained site but was still higher than comparative intact sites. Our results indicate that rewetted sites may be more sensitive to interannual changes in weather conditions than their more resilient intact counterparts and may switch from an annual CO sink to a source if triggered by slightly drier conditions.

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1,3-Dimethyl Benzimidazolones Are Potent, Selective Inhibitors of the BRPF1 Bromodomain

Demont¹,

Bamborough²,

Chung³

et al. 2014

ACS Med. Chem. Lett.

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Rewetting degraded peatlands for climate and biodiversity benefits: Results from two raised bogs

Renou‐Wilson

Moser

Fallon

et al. 2019

Ecological Engineering

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A Photoaffinity‐Based Fragment‐Screening Platform for Efficient Identification of Protein Ligands

et al. 2020

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Advances in genomic analyses enable the identification of new proteins that are associated with disease. To validate these targets, tool molecules are required to demonstrate that a ligand can have a disease‐modifying effect. Currently, as tools are reported for only a fraction of the proteome, platforms for ligand discovery are essential to leverage insights from genomic analyses. Fragment screening offers an efficient approach to explore chemical space. Presented here is a fragment‐screening platform, termed PhABits (PhotoAffinity Bits), which utilizes a library of photoreactive fragments to covalently capture fragment–protein interactions. Hits can be profiled to determine potency and the site of crosslinking, and subsequently developed as reporters in a competitive displacement assay to identify novel hit matter. The PhABit platform is envisioned to be widely applicable to novel protein targets, identifying starting points in the development of therapeutics.

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David J. Fallon

Anthropogenic and climate-change impacts on salt marshes of Jamaica Bay, New York City

Multiyear greenhouse gas balances at a rewetted temperate peatland

1,3-Dimethyl Benzimidazolones Are Potent, Selective Inhibitors of the BRPF1 Bromodomain

Rewetting degraded peatlands for climate and biodiversity benefits: Results from two raised bogs

A Photoaffinity‐Based Fragment‐Screening Platform for Efficient Identification of Protein Ligands

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