Matthew H Siebers
Overview
Explore the profile of Matthew H Siebers including associated specialties, affiliations and a list of published articles.
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Articles
13
Citations
199
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Recent Articles
1.
McGrath J, Siebers M, Fu P, Long S, Bernacchi C
Front Plant Sci
. 2024 Feb;
14:1325221.
PMID: 38312358
The gap between genomics and phenomics is narrowing. The rate at which it is narrowing, however, is being slowed by improper statistical comparison of methods. Quantification using Pearson's correlation coefficient...
2.
Bernacchi C, Ruiz-Vera U, Siebers M, DeLucia N, Ort D
Biochem J
. 2023 Jul;
480(13):999-1014.
PMID: 37418286
Global temperatures are rising from increasing concentrations of greenhouse gases in the atmosphere associated with anthropogenic activities. Global warming includes a warmer shift in mean temperatures as well as increases...
3.
Fu P, Montes C, Siebers M, Gomez-Casanovas N, McGrath J, Ainsworth E, et al.
J Exp Bot
. 2022 Feb;
73(10):3157-3172.
PMID: 35218184
Gas exchange techniques revolutionized plant research and advanced understanding, including associated fluxes and efficiencies, of photosynthesis, photorespiration, and respiration of plants from cellular to ecosystem scales. These techniques remain the...
4.
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...
5.
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...
6.
Gray S, Strellner R, Puthuval K, Ng C, Shulman R, Siebers M, et al.
Funct Plant Biol
. 2020 Jun;
40(2):137-147.
PMID: 32481094
The rate of N2 fixation by a leguminous plant is a product of the activity of individual nodules and the number of nodules. Initiation of new nodules and N2 fixation...
7.
Siebers M, Edwards E, Jimenez-Berni J, Thomas M, Salim M, Walker R
Sensors (Basel)
. 2018 Sep;
18(9).
PMID: 30177637
This paper introduces GRover (the grapevine rover), an adaptable mobile platform for the deployment and testing of proximal imaging sensors in vineyards for the non-destructive assessment of trunk and cordon...
8.
Ruiz-Vera U, Siebers M, Jaiswal D, Ort D, Bernacchi C
Plant Cell Environ
. 2018 Jul;
41(12):2806-2820.
PMID: 30055106
Increases in atmospheric CO concentrations ([CO ]) and surface temperature are known to individually have effects on crop development and yield, but their interactive effects have not been adequately investigated...
9.
Gray S, Dermody O, Klein S, Locke A, McGrath J, Paul R, et al.
Nat Plants
. 2016 Sep;
2(9):16132.
PMID: 27595230
Stimulation of C3 crop yield by rising concentrations of atmospheric carbon dioxide ([CO2]) is widely expected to counteract crop losses that are due to greater drought this century. But these...
10.
Ruiz-Vera U, Siebers M, Drag D, Ort D, Bernacchi C
Glob Chang Biol
. 2015 Jun;
21(11):4237-49.
PMID: 26119211
Rising atmospheric CO2 concentration ([CO2 ]) and attendant increases in growing season temperature are expected to be the most important global change factors impacting production agriculture. Although maize is the...