Matthew R Nitschke

Overview

Explore the profile of Matthew R Nitschke including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 22

Citations 198

Followers 0

Related Specialties

Biology

Environmental Health

Microbiology

Top 10 Co-Authors

David J Suggett

Madeleine J H van Oppen

Jorg C Frommlet

Joao Serodio

Samantha Goyen

Emma F Camp

Stephanie G Gardner

Patrick Buerger

Michael Stat

Peter J Ralph

Published In

J Eukaryot Microbiol

PeerJ

J Phycol

Mol Ecol

Biol Open

Affiliations

Soon will be listed here.

Recent Articles

Interspecific hybridisation provides a low-risk option for increasing genetic diversity of reef-building corals

Lamb A, Peplow L, Dungan A, Ferguson S, Harrison P, Humphrey C, et al.

Biol Open . 2024 Aug; 13(9). PMID: 39207257

Interspecific hybridisation increases genetic diversity and has played a significant role in the evolution of corals in the genus Acropora. In vitro fertilisation can be used to increase the frequency...

Pushing the limits: expanding the temperature tolerance of a coral photosymbiont through differing selection regimes

Scharfenstein H, Peplow L, Alvarez-Roa C, Nitschke M, Chan W, Buerger P, et al.

New Phytol . 2024 Jul; 243(6):2130-2145. PMID: 39049585

Coral thermal bleaching resilience can be improved by enhancing photosymbiont thermal tolerance via experimental evolution. While successful for some strains, selection under stable temperatures was ineffective at increasing the thermal...

The use of experimentally evolved coral photosymbionts for reef restoration

Nitschke M, Abrego D, Allen C, Alvarez-Roa C, Boulotte N, Buerger P, et al.

Trends Microbiol . 2024 Jun; 32(12):1241-1252. PMID: 38942718

The heat tolerance of corals is largely determined by their microbial photosymbionts (Symbiodiniaceae, colloquially known as zooxanthellae). Therefore, manipulating symbiont communities may enhance the ability of corals to survive summer...

Unique photosynthetic strategies employed by closely related Breviolum minutum strains under rapid short-term cumulative heat stress

Deore P, Tsang Min Ching S, Nitschke M, Rudd D, Brumley D, Hinde E, et al.

J Exp Bot . 2024 Apr; 75(13):4005-4023. PMID: 38636949

The thermal tolerance of symbiodiniacean photo-endosymbionts largely underpins the thermal bleaching resilience of their cnidarian hosts such as corals and the coral model Exaiptasia diaphana. While variation in thermal tolerance...

Symbiodiniaceae diversity varies by host and environment across thermally distinct reefs

Marzonie M, Nitschke M, Bay L, Bourne D, Harrison H

Mol Ecol . 2024 Apr; 33(9):e17342. PMID: 38584356

Endosymbiotic dinoflagellates (Symbiodiniaceae) influence coral thermal tolerance at both local and regional scales. In isolation, the effects of host genetics, environment, and thermal disturbances on symbiont communities are well understood,...

Building consensus around the assessment and interpretation of Symbiodiniaceae diversity

Davies S, Gamache M, Howe-Kerr L, Kriefall N, Baker A, Banaszak A, et al.

PeerJ . 2023 May; 11:e15023. PMID: 37151292

Within microeukaryotes, genetic variation and functional variation sometimes accumulate more quickly than morphological differences. To understand the evolutionary history and ecology of such lineages, it is key to examine diversity...

Formal recognition of host-generalist species of dinoflagellate (Cladocopium, Symbiodiniaceae) mutualistic with Indo-Pacific reef corals

Butler C, Turnham K, Lewis A, Nitschke M, Warner M, Kemp D, et al.

J Phycol . 2023 May; 59(4):698-711. PMID: 37126002

The existence of widespread species with the capacity to endure diverse, or variable, environments are of importance to ecological and genetic research, and conservation. Such "ecological generalists" are more likely...

Concurrent bioimaging of microalgal photophysiology and oxidative stress

Ezequiel J, Nitschke M, Laviale M, Serodio J, Frommlet J

Photosynth Res . 2022 Dec; 155(2):177-190. PMID: 36463555

The production of reactive oxygen species (ROS) is an unavoidable consequence of oxygenic photosynthesis and represents a major cause of oxidative stress in phototrophs, having detrimental effects on the photosynthetic...

The diversity and ecology of Symbiodiniaceae: A traits-based review

Nitschke M, Rosset S, Oakley C, Gardner S, Camp E, Suggett D, et al.

Adv Mar Biol . 2022 Oct; 92:55-127. PMID: 36208879

Among the most successful microeukaryotes to form mutualisms with animals are dinoflagellates in the family Symbiodiniaceae. These photosynthetic symbioses drive significant primary production and are responsible for the formation of...

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Micronutrient content drives elementome variability amongst the Symbiodiniaceae

Camp E, Nitschke M, Clases D, Gonzalez de Vega R, Reich H, Goyen S, et al.

BMC Plant Biol . 2022 Apr; 22(1):184. PMID: 35395710

Background: Elements are the basis of life on Earth, whereby organisms are essentially evolved chemical substances that dynamically interact with each other and their environment. Determining species elemental quotas (their...