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Items: 1 to 20 of 227

2.

Increased air temperature during simulated autumn conditions impairs photosynthetic electron transport between photosystem II and photosystem I.

Busch F, Hüner NP, Ensminger I.

Plant Physiol. 2008 May;147(1):402-14. doi: 10.1104/pp.108.117598. Epub 2008 Mar 28.

3.

Photoperiod and temperature constraints on the relationship between the photochemical reflectance index and the light use efficiency of photosynthesis in Pinus strobus.

Fréchette E, Chang CY, Ensminger I.

Tree Physiol. 2016 Mar;36(3):311-24. doi: 10.1093/treephys/tpv143. Epub 2016 Feb 3.

4.

Soil temperature and intermittent frost modulate the rate of recovery of photosynthesis in Scots pine under simulated spring conditions.

Ensminger I, Schmidt L, Lloyd J.

New Phytol. 2008;177(2):428-42. doi: 10.1111/j.1469-8137.2007.02273.x.

5.

Regulation of energy partitioning and alternative electron transport pathways during cold acclimation of lodgepole pine is oxygen dependent.

Savitch LV, Ivanov AG, Krol M, Sprott DP, Oquist G, Huner NP.

Plant Cell Physiol. 2010 Sep;51(9):1555-70. doi: 10.1093/pcp/pcq101. Epub 2010 Jul 14.

PMID:
20630988
6.

Sensitivity of cold acclimation to elevated autumn temperature in field-grown Pinus strobus seedlings.

Chang CY, Unda F, Zubilewich A, Mansfield SD, Ensminger I.

Front Plant Sci. 2015 Mar 24;6:165. doi: 10.3389/fpls.2015.00165. eCollection 2015.

7.
8.

Warming delays autumn declines in photosynthetic capacity in a boreal conifer, Norway spruce (Picea abies).

Stinziano JR, Hüner NP, Way DA.

Tree Physiol. 2015 Dec;35(12):1303-13. doi: 10.1093/treephys/tpv118. Epub 2015 Nov 4.

PMID:
26543154
9.
10.

Seasonal changes in temperature response of photosynthesis and its contribution to annual carbon gain in Daphniphyllum humile, an evergreen understorey shrub.

Katahata SI, Han Q, Naramoto M, Kakubari Y, Mukai Y.

Plant Biol (Stuttg). 2014 Mar;16(2):345-53. doi: 10.1111/plb.12046. Epub 2013 Jun 4.

PMID:
23731172
12.
13.

Excitation energy partitioning and quenching during cold acclimation in Scots pine.

Sveshnikov D, Ensminger I, Ivanov AG, Campbell D, Lloyd J, Funk C, Hüner NP, Oquist G.

Tree Physiol. 2006 Mar;26(3):325-36.

PMID:
16356904
14.

Responses of the photosynthetic apparatus to winter conditions in broadleaved evergreen trees growing in warm temperate regions of Japan.

Tanaka C, Nakano T, Yamazaki JY, Maruta E.

Plant Physiol Biochem. 2015 Jan;86:147-54. doi: 10.1016/j.plaphy.2014.12.002. Epub 2014 Dec 3.

PMID:
25500451
15.

Seasonal response of photosynthetic electron transport and energy dissipation in the eighth year of exposure to elevated atmospheric CO2 (FACE) in Pinus taeda (loblolly pine).

Logan BA, Combs A, Myers K, Kent R, Stanley L, Tissue DT.

Tree Physiol. 2009 Jun;29(6):789-97. doi: 10.1093/treephys/tpp019. Epub 2009 Mar 27.

PMID:
19364706
16.

Seasonal changes in abundance and phosphorylation status of photosynthetic proteins in eastern white pine and balsam fir.

Verhoeven A, Osmolak A, Morales P, Crow J.

Tree Physiol. 2009 Mar;29(3):361-74. doi: 10.1093/treephys/tpn031. Epub 2009 Jan 13.

PMID:
19203960
17.

Autumn photosynthetic decline and growth cessation in seedlings of white spruce are decoupled under warming and photoperiod manipulations.

Stinziano JR, Way DA.

Plant Cell Environ. 2017 Aug;40(8):1296-1316. doi: 10.1111/pce.12917. Epub 2017 Mar 20.

PMID:
28102913
18.

Impacts of seasonal air and soil temperatures on photosynthesis in Scots pine trees.

Strand M, Lundmark T, Söderbergh I, Mellander PE.

Tree Physiol. 2002 Aug;22(12):839-47.

PMID:
12184973
19.

Elevated Temperature and CO2 Stimulate Late-Season Photosynthesis But Impair Cold Hardening in Pine.

Chang CY, Fréchette E, Unda F, Mansfield SD, Ensminger I.

Plant Physiol. 2016 Oct;172(2):802-818. Epub 2016 Sep 2.

20.

Seasonal responses of photosynthetic electron transport in Scots pine (Pinus sylvestris L.) studied by thermoluminescence.

Ivanov AG, Sane PV, Zeinalov Y, Simidjiev I, Huner NP, Oquist G.

Planta. 2002 Jul;215(3):457-65. Epub 2002 Apr 11.

PMID:
12111228

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