Carl J Bernacchi
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Explore the profile of Carl J Bernacchi including associated specialties, affiliations and a list of published articles.
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73
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1864
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Recent Articles
21.
Kimm H, Guan K, Burroughs C, Peng B, Ainsworth E, Bernacchi C, et al.
Glob Chang Biol
. 2021 Apr;
27(11):2403-2415.
PMID: 33844873
High temperature and accompanying high vapor pressure deficit often stress plants without causing distinctive changes in plant canopy structure and consequential spectral signatures. Sun-induced chlorophyll fluorescence (SIF), because of its...
22.
Moore C, Meacham-Hensold K, Lemonnier P, Slattery R, Benjamin C, Bernacchi C, et al.
J Exp Bot
. 2021 Feb;
72(8):2822-2844.
PMID: 33619527
As global land surface temperature continues to rise and heatwave events increase in frequency, duration, and/or intensity, our key food and fuel cropping systems will likely face increased heat-related stress....
23.
Siebers M, Gomez-Casanovas N, Fu P, Meacham-Hensold K, Moore C, Bernacchi C
Emerg Top Life Sci
. 2021 Feb;
5(2):261-274.
PMID: 33527993
Measuring photosynthesis is critical for quantifying and modeling leaf to regional scale productivity of managed and natural ecosystems. This review explores existing and novel advances in photosynthesis measurements that are...
24.
Fu P, Meacham-Hensold K, Siebers M, Bernacchi C
J Exp Bot
. 2020 Dec;
72(4):1295-1306.
PMID: 33340310
Improving photosynthesis is considered a promising way to increase crop yield to feed a growing population. Realizing this goal requires non-destructive techniques to quantify photosynthetic variation among crop cultivars. Despite...
25.
Peng B, Guan K, Tang J, Ainsworth E, Asseng S, Bernacchi C, et al.
Nat Plants
. 2020 Apr;
6(4):338-348.
PMID: 32296143
Predicting the consequences of manipulating genotype (G) and agronomic management (M) on agricultural ecosystem performances under future environmental (E) conditions remains a challenge. Crop modelling has the potential to enable...
26.
Drag D, Slattery R, Siebers M, DeLucia E, Ort D, Bernacchi C
J Exp Bot
. 2020 Mar;
71(12):3690-3700.
PMID: 32170296
Increasing atmospheric carbon dioxide concentration ([CO2]) directly impacts C3 plant photosynthesis and productivity, and the rate at which [CO2] is increasing is greater than initially predicted by worst-case scenario climate...
27.
Meacham-Hensold K, Montes C, Wu J, Guan K, Fu P, Ainsworth E, et al.
Remote Sens Environ
. 2019 Sep;
231:111176.
PMID: 31534277
Spectroscopy is becoming an increasingly powerful tool to alleviate the challenges of traditional measurements of key plant traits at the leaf, canopy, and ecosystem scales. Spectroscopic methods often rely on...
28.
Thomey M, Slattery R, Kohler I, Bernacchi C, Ort D
Glob Chang Biol
. 2019 Aug;
25(12):4352-4368.
PMID: 31411789
Elevated atmospheric CO concentration ([CO ]) generally enhances C plant productivity, whereas acute heat stress, which occurs during heat waves, generally elicits the opposite response. However, little is known about...
29.
Fu P, Meacham-Hensold K, Guan K, Bernacchi C
Front Plant Sci
. 2019 Jun;
10:730.
PMID: 31214235
Global agriculture production is challenged by increasing demands from rising population and a changing climate, which may be alleviated through development of genetically improved crop cultivars. Research into increasing photosynthetic...
30.
Kohler I, Huber S, Bernacchi C, Baxter I
Plant J
. 2018 Nov;
97(5):872-886.
PMID: 30447177
Iron (Fe) and zinc (Zn) deficiencies are a global human health problem that may worsen by the growth of crops at elevated atmospheric CO concentration (eCO ). However, climate change...