David T Tissue
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Explore the profile of David T Tissue including associated specialties, affiliations and a list of published articles.
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163
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1775
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Recent Articles
1.
Wu T, Tissue D, Jiang M, Slot M, Crous K, Yuan J, et al.
Glob Chang Biol
. 2025 Jan;
31(1):e70026.
PMID: 39825386
Leaf photosynthesis and respiration are two of the largest carbon fluxes between the atmosphere and biosphere. Although experiments examining the warming effects on photosynthetic and respiratory thermal acclimation have been...
2.
Ancin M, Gamez A, Jauregui I, Galmes J, Sharwood R, Erice G, et al.
J Exp Bot
. 2024 Sep;
75(22):7351-7364.
PMID: 39264212
Climate change due to anthropogenic CO2 emissions affects plant performance globally. To improve crop resilience, we need to understand the effects of elevated CO2 concentration (e[CO2]) on CO2 assimilation and...
3.
Genomic determinants, architecture, and constraints in drought-related traits in Corymbia calophylla
Ahrens C, Murray K, Mazanec R, Ferguson S, Jones A, Tissue D, et al.
BMC Genomics
. 2024 Jun;
25(1):640.
PMID: 38937661
Background: Drought adaptation is critical to many tree species persisting under climate change, however our knowledge of the genetic basis for trees to adapt to drought is limited. This knowledge...
4.
Mateus N, Perez-Martinez V, Lavres J, Tissue D, Choat B
J Exp Bot
. 2024 Jun;
75(18):5641-5654.
PMID: 38829345
Sodium (Na+) is a beneficial element for most plants and may replace potassium (K+) in osmoregulatory process to a certain extent, increasing plant water use efficiency. Thus, understanding coordinated mechanisms...
5.
Drake J, Varhammar A, Aspinwall M, Pfautsch S, Ghannoum O, Tissue D, et al.
New Phytol
. 2024 Apr;
243(1):82-97.
PMID: 38666344
Contemporary climate change will push many tree species into conditions that are outside their current climate envelopes. Using the Eucalyptus genus as a model, we addressed whether species with narrower...
6.
Duan H, Shao C, Zhao N, Wang D, de Dios V, Tissue D
Sci Rep
. 2024 Apr;
14(1):8824.
PMID: 38627563
Understanding the physiological and biochemical responses of tree seedlings under extreme drought stress, along with recovery during rewatering, and potential intra-species differences, will allow us to more accurately predict forest...
7.
Stefaniak E, Tissue D, Dewar R, Medlyn B
Tree Physiol
. 2024 Mar;
44(13):34-45.
PMID: 38498322
Allocation of non-structural carbohydrates to storage allows plants to maintain a carbon pool in anticipation of future stress. However, to do so, plants must forego use of the carbon for...
8.
Saving for an emergency: how does carbon storage contribute to tree survival under long-term stress?
Duan H, Landhausser S, Ouyang S, Tissue D
Tree Physiol
. 2024 Feb;
44(13):186-191.
PMID: 38381610
No abstract available.
9.
Sargent D, Amthor J, Stinziano J, Evans J, Whitney S, Bange M, et al.
Plant Cell Environ
. 2024 Jan;
47(5):1701-1715.
PMID: 38294051
Leaf gas exchange measurements are an important tool for inferring a plant's photosynthetic biochemistry. In most cases, the responses of photosynthetic CO assimilation to variable intercellular CO concentrations (A/C response...
10.
Liu X, Lie Z, Reich P, Zhou G, Yan J, Huang W, et al.
Glob Chang Biol
. 2024 Jan;
30(1):e17072.
PMID: 38273547
Tropical and subtropical forests play a crucial role in global carbon (C) pools, and their responses to warming can significantly impact C-climate feedback and predictions of future global warming. Despite...