Matthew J Harke
Overview
Explore the profile of Matthew J Harke including associated specialties, affiliations and a list of published articles.
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Articles
20
Citations
510
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0
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Recent Articles
1.
Major S, Harke M, Cruz-Flores R, Dhar A, Bodnar A, Wanamaker S
Appl Environ Microbiol
. 2023 May;
89(6):e0215122.
PMID: 37219435
Timely detection of persistent and emerging pathogens is critical to controlling disease spread, particularly in high-density populations with increased contact between individuals and limited-to-no ability to quarantine. Standard molecular diagnostic...
2.
Kramer B, Jankowiak J, Nanjappa D, Harke M, Gobler C
Front Microbiol
. 2022 Sep;
13:955032.
PMID: 36160233
While freshwater cyanobacteria are traditionally thought to be limited by the availability of phosphorus (P), fixed nitrogen (N) supply can promote the growth and/or toxin production of some genera. This...
3.
Muratore D, Boysen A, Harke M, Becker K, Casey J, Coesel S, et al.
Nat Ecol Evol
. 2022 Jan;
6(2):218-229.
PMID: 35058612
Complex assemblages of microbes in the surface ocean are responsible for approximately half of global carbon fixation. The persistence of high taxonomic diversity despite competition for a small suite of...
4.
Harke M, Frischkorn K, Hennon G, Haley S, Barone B, Karl D, et al.
Environ Microbiol
. 2021 Jul;
23(8):4807-4822.
PMID: 34309154
The physical and biological dynamics that influence phytoplankton communities in the oligotrophic ocean are complex, changing across broad temporal and spatial scales. Eukaryotic phytoplankton (e.g., diatoms), despite their relatively low...
5.
Becker K, Harke M, Mende D, Muratore D, Weitz J, DeLong E, et al.
ISME J
. 2020 Oct;
15(2):520-533.
PMID: 33033374
Sunlight is the most important environmental control on diel fluctuations in phytoplankton activity, and understanding diel microbial processes is essential to the study of oceanic biogeochemical cycles. Yet, little is...
6.
Hernandez Limon M, Hennon G, Harke M, Frischkorn K, Haley S, Dyhrman S
Environ Microbiol
. 2019 Nov;
22(1):381-396.
PMID: 31709692
Emiliania huxleyi is a calcifying haptophyte, contributing to both the organic and inorganic marine carbon cycles. In marine ecosystems, light is a major driver of phytoplankton physiology and ultimately carbon...
7.
Wilson S, Hawco N, Armbrust E, Barone B, Bjorkman K, Boysen A, et al.
Science
. 2019 Sep;
365(6457):1040-1044.
PMID: 31488692
From June to August 2018, the eruption of Kīlauea volcano on the island of Hawai'i injected millions of cubic meters of molten lava into the nutrient-poor waters of the North...
8.
Griffith A, Harke M, DePasquale E, Berry D, Gobler C
Ecol Evol
. 2019 Apr;
9(8):4931-4948.
PMID: 31031955
Global ocean change threatens marine life, yet a mechanistic understanding of how organisms are affected by specific stressors is poorly understood. Here, we identify and compare the unique and common...
9.
Harke M, Frischkorn K, Haley S, Aylward F, Zehr J, Dyhrman S
ISME J
. 2018 Aug;
13(1):118-131.
PMID: 30116042
In the surface ocean, light fuels photosynthetic carbon fixation of phytoplankton, playing a critical role in ecosystem processes including carbon export to the deep sea. In oligotrophic oceans, diatom-diazotroph associations...
10.
Saraf S, Frenkel A, Harke M, Jankowiak J, Gobler C, McElroy A
Aquat Toxicol
. 2017 Nov;
194:18-26.
PMID: 29132031
Freshwater cyanobacterial harmful algal blooms (CyanoHABs) caused by algae in the genus Microcystis have been increasing in frequency and severity in recent decades. Microcystis blooms threaten aquatic organisms through effects...