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Items: 1 to 20 of 153

1.

Cotton bracts are adapted to a microenvironment of concentrated CO2 produced by rapid fruit respiration.

Hu YY, Oguchi R, Yamori W, von Caemmerer S, Chow WS, Zhang WF.

Ann Bot. 2013 Jul;112(1):31-40. doi: 10.1093/aob/mct091. Epub 2013 Apr 26.

2.

Carbon dioxide diffusion across stomata and mesophyll and photo-biochemical processes as affected by growth CO2 and phosphorus nutrition in cotton.

Singh SK, Badgujar G, Reddy VR, Fleisher DH, Bunce JA.

J Plant Physiol. 2013 Jun 15;170(9):801-13. doi: 10.1016/j.jplph.2013.01.001. Epub 2013 Feb 4.

PMID:
23384758
3.

Does long-term cultivation of saplings under elevated CO2 concentration influence their photosynthetic response to temperature?

Šigut L, Holišová P, Klem K, Šprtová M, Calfapietra C, Marek MV, Špunda V, Urban O.

Ann Bot. 2015 Nov;116(6):929-39. doi: 10.1093/aob/mcv043. Epub 2015 Apr 7.

4.

Photosynthetic acclimation in rice leaves to free-air CO2 enrichment related to both ribulose-1,5-bisphosphate carboxylation limitation and ribulose-1,5-bisphosphate regeneration limitation.

Chen GY, Yong ZH, Liao Y, Zhang DY, Chen Y, Zhang HB, Chen J, Zhu JG, Xu DQ.

Plant Cell Physiol. 2005 Jul;46(7):1036-45. Epub 2005 Apr 19.

PMID:
15840641
5.

The response of photosynthesis and stomatal conductance to rising [CO2]: mechanisms and environmental interactions.

Ainsworth EA, Rogers A.

Plant Cell Environ. 2007 Mar;30(3):258-270. doi: 10.1111/j.1365-3040.2007.01641.x. Review.

6.

Low stomatal and internal conductance to CO2 versus Rubisco deactivation as determinants of the photosynthetic decline of ageing evergreen leaves.

Ethier GJ, Livingston NJ, Harrison DL, Black TA, Moran JA.

Plant Cell Environ. 2006 Dec;29(12):2168-84.

7.

Biochemical acclimation, stomatal limitation and precipitation patterns underlie decreases in photosynthetic stimulation of soybean (Glycine max) at elevated [CO₂] and temperatures under fully open air field conditions.

Rosenthal DM, Ruiz-Vera UM, Siebers MH, Gray SB, Bernacchi CJ, Ort DR.

Plant Sci. 2014 Sep;226:136-46. doi: 10.1016/j.plantsci.2014.06.013. Epub 2014 Jun 20.

PMID:
25113459
8.
9.

Leaf and canopy photosynthetic characteristics of cotton (Gossypium hirsutum) under elevated CO2 concentration and UV-B radiation.

Zhao D, Reddy KR, Kakani VG, Mohammed AR, Read JJ, Gao W.

J Plant Physiol. 2004 May;161(5):581-90.

PMID:
15202715
10.

Modelling (18)O2 and (16)O2 unidirectional fluxes in plants. III: fitting of experimental data by a simple model.

André MJ.

Biosystems. 2013 Aug;113(2):104-14. doi: 10.1016/j.biosystems.2012.10.004. Epub 2012 Nov 13.

PMID:
23153764
12.
13.
15.

Involvement of respiratory processes in the transient knockout of net CO2 uptake in Mimosa pudica upon heat stimulation.

Lautner S, Stummer M, Matyssek R, Fromm J, Grams TE.

Plant Cell Environ. 2014 Jan;37(1):254-60. doi: 10.1111/pce.12150. Epub 2013 Jul 5.

16.

Do the rich always become richer? Characterizing the leaf physiological response of the high-yielding rice cultivar Takanari to free-air CO2 enrichment.

Chen CP, Sakai H, Tokida T, Usui Y, Nakamura H, Hasegawa T.

Plant Cell Physiol. 2014 Feb;55(2):381-91. doi: 10.1093/pcp/pcu009. Epub 2014 Jan 18.

17.

In situ temperature relationships of biochemical and stomatal controls of photosynthesis in four lowland tropical tree species.

Slot M, Winter K.

Plant Cell Environ. 2017 Dec;40(12):3055-3068. doi: 10.1111/pce.13071. Epub 2017 Oct 30.

PMID:
28926102
18.
19.

Water deficit in field-grown Gossypium hirsutum primarily limits net photosynthesis by decreasing stomatal conductance, increasing photorespiration, and increasing the ratio of dark respiration to gross photosynthesis.

Chastain DR, Snider JL, Collins GD, Perry CD, Whitaker J, Byrd SA.

J Plant Physiol. 2014 Nov 1;171(17):1576-85. doi: 10.1016/j.jplph.2014.07.014. Epub 2014 Aug 1.

PMID:
25151126
20.

Rubisco activase constrains the photosynthetic potential of leaves at high temperature and CO2.

Crafts-Brandner SJ, Salvucci ME.

Proc Natl Acad Sci U S A. 2000 Nov 21;97(24):13430-5.

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