Thomas Borch
Overview
Explore the profile of Thomas Borch including associated specialties, affiliations and a list of published articles.
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80
Citations
685
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Recent Articles
1.
Nelson A, Rhoades C, Fegel T, Roth H, Caiafa M, Glassman S, et al.
ISME Commun
. 2025 Feb;
4(1):ycae108.
PMID: 39963501
Wildfires, which are increasing in frequency and severity with climate change, reduce soil microbial biomass and alter microbial community composition and function. The soil microbiome plays a vital role in...
2.
Chauhan A, Patzner M, Bhattacharyya A, Borch T, Fischer S, Obst M, et al.
Sci Total Environ
. 2024 Jun;
946:174321.
PMID: 38942322
Thawing permafrost forms "thaw ponds" that accumulate and transport organic carbon (OC), redox-active iron (Fe), and other elements. Although Fe has been shown to act as a control on the...
3.
Nelson A, Fegel T, Danczak R, Caiafa M, Roth H, Dunn O, et al.
ISME J
. 2024 Mar;
18(1).
PMID: 38502869
Disturbances cause rapid changes to forests, with different disturbance types and severities creating unique ecosystem trajectories that can impact the underlying soil microbiome. Pile burning-the combustion of logging residue on...
4.
Ozer T, Agir I, Borch T
Analyst
. 2024 Feb;
149(9):2671-2679.
PMID: 38411256
Low-power and smart sensing systems for iron detection are necessary for monitoring of water quality. Here, a potentiometric Fe-selective electrode (ISE) was fabricated based on cyanomethyl -methyl--phenyl dithiocarbamate for the...
5.
Jech S, Adamchak C, Stokes S, Wiltse M, Callen J, VanderRoest J, et al.
Environ Sci Technol
. 2024 Feb;
58(9):4326-4333.
PMID: 38394340
Wildfires at the wildland-urban interface (WUI) are increasingly common. The impacts of such events are likely distinct from those that occur strictly in wildland areas, as we would expect an...
6.
VanderRoest J, Fowler J, Rhoades C, Roth H, Broeckling C, Fegel T, et al.
Environ Sci Technol
. 2024 Feb;
58(9):4167-4180.
PMID: 38385432
Global wildfire activity has increased since the 1970s and is projected to intensify throughout the 21st century. Wildfires change the composition and biodegradability of soil organic matter (SOM) which contains...
7.
Zhang Z, Miller L, He H, Nadagouda M, Borch T, OShea K, et al.
Sci Total Environ
. 2023 Dec;
915:169429.
PMID: 38123086
Natural organic matter (NOM) plays a critical role in the mobilization and bioavailability of metals and metalloids in the aquatic environment. Selenium (Se), an environmental contaminant of aquatic systems, has...
8.
Yin M, Zhang X, Li F, Yan X, Zhou X, Ran Q, et al.
Environ Sci Technol
. 2023 Dec;
58(3):1771-1782.
PMID: 38086743
Biochar has demonstrated significant promise in addressing heavy metal contamination and methane (CH) emissions in paddy soils; however, achieving a synergy between these two goals is challenging due to various...
9.
Menger R, Funk E, Henry C, Borch T
Chem Eng J
. 2023 Aug;
417:129133.
PMID: 37539085
Per- and polyfluoroalkyl substances (PFAS) are a class of compounds that have become environmental contaminants of emerging concern. They are highly persistent, toxic, bioaccumulative, and ubiquitous which makes them important...
10.
Hermes A, Logan M, Poulin B, McKenna A, Dawson T, Borch T, et al.
Environ Sci Technol
. 2023 Jun;
57(27):10019-10029.
PMID: 37382932
Over the past several decades, agricultural sulfur (S) use has dramatically increased. Excess S in the environment can cause several biogeochemical and ecologic consequences, including methylmercury production. This study investigated...