Benjamin Blonder
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Explore the profile of Benjamin Blonder including associated specialties, affiliations and a list of published articles.
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40
Citations
961
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Recent Articles
1.
Matos I, Boakye M, Antonio M, Carlos S, Chu A, Duarte M, et al.
Ecology
. 2024 Oct;
105(12):e4436.
PMID: 39449608
The dataset contains leaf venation architecture and functional traits for a phylogenetically diverse set of 122 plant species (including ferns, basal angiosperms, monocots, basal eudicots, asterids, and rosids) collected from...
2.
Duarte M, Woo S, Hultine K, Blonder B, Aparecido L
AoB Plants
. 2023 Mar;
15(2):plad002.
PMID: 36959913
Herbivory can impact gas exchange, but the causes of interspecific variation in response remain poorly understood. We aimed to determine (1) what effects does experimental herbivory damage to leaf midveins...
3.
Guo Z, Still C, Lee C, Ryu Y, Blonder B, Wang J, et al.
New Phytol
. 2022 Dec;
238(3):1004-1018.
PMID: 36495263
To what degree plant ecosystems thermoregulate their canopy temperature (T ) is critical to assess ecosystems' metabolisms and resilience with climate change, but remains controversial, with opinions from no to...
4.
Diaz S, Kattge J, Cornelissen J, Wright I, Lavorel S, Dray S, et al.
Sci Data
. 2022 Dec;
9(1):755.
PMID: 36477373
Here we provide the 'Global Spectrum of Plant Form and Function Dataset', containing species mean values for six vascular plant traits. Together, these traits -plant height, stem specific density, leaf...
5.
Garen J, Branch H, Borrego I, Blonder B, Stinziano J, Michaletz S
New Phytol
. 2022 Jun;
236(2):369-384.
PMID: 35762843
Portable gas exchange analysers provide critical data for understanding plant-atmosphere carbon and water fluxes, and for parameterising Earth system models that forecast climate change effects and feedbacks. We characterised temperature...
6.
Lembrechts J, van den Hoogen J, Aalto J, Ashcroft M, De Frenne P, Kemppinen J, et al.
Glob Chang Biol
. 2021 Dec;
28(9):3110-3144.
PMID: 34967074
Research in global change ecology relies heavily on global climatic grids derived from estimates of air temperature in open areas at around 2 m above the ground. These climatic grids...
7.
Blonder B, Brodrick P, Walton J, Chadwick K, Breckheimer I, Marchetti S, et al.
Glob Chang Biol
. 2021 Dec;
28(7):2491-2504.
PMID: 34962013
Mapping geographic mosaics of genetic variation and their consequences via genotype x environment interactions at large extents and high resolution has been limited by the scalability of DNA sequencing. Here,...
8.
Fordham D, Brown S, Akcakaya H, Brook B, Haythorne S, Manica A, et al.
Ecol Lett
. 2021 Nov;
25(1):125-137.
PMID: 34738712
Pathways to extinction start long before the death of the last individual. However, causes of early stage population declines and the susceptibility of small residual populations to extirpation are typically...
9.
Blonder B, Ray C, Walton J, Castaneda M, Chadwick K, Clyne M, et al.
Ecol Appl
. 2021 Aug;
31(8):e02438.
PMID: 34374163
Species responses to climate change depend on environment, genetics, and interactions among these factors. Intraspecific cytotype (ploidy level) variation is a common type of genetic variation in many species. However,...
10.
Xu H, Blonder B, Jodra M, Malhi Y, Fricker M
New Phytol
. 2020 Sep;
229(1):631-648.
PMID: 32964424
Leaf vein network geometry can predict levels of resource transport, defence and mechanical support that operate at different spatial scales. However, it is challenging to quantify network architecture across scales...