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Journal Abstract Search

168 related items for PubMed ID: 12975132

  • 1. Chlorophyll content monitoring in sugar maple (Acer saccharum).
    Cate TM, Perkins TD.
    Tree Physiol; 2003 Oct; 23(15):1077-9. PubMed ID: 12975132
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  • 4. Stem girdling manipulates leaf sugar concentrations and anthocyanin expression in sugar maple trees during autumn.
    Murakami PF, Schaberg PG, Shane JB.
    Tree Physiol; 2008 Oct; 28(10):1467-73. PubMed ID: 18708328
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  • 6. Relationship between leaf optical properties, chlorophyll fluorescence and pigment changes in senescing Acer saccharum leaves.
    Junker LV, Ensminger I.
    Tree Physiol; 2016 Jun; 36(6):694-711. PubMed ID: 26928514
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  • 7. Methyl gallate is a natural constituent of maple (Genus Acer) leaves.
    Abou-Zaid MM, Lombardo DA, Nozzolillo C.
    Nat Prod Res; 2009 Jun; 23(15):1373-7. PubMed ID: 19809908
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  • 10. Element accumulation patterns of deciduous and evergreen tree seedlings on acid soils: implications for sensitivity to manganese toxicity.
    St Clair SB, Lynch JP.
    Tree Physiol; 2005 Jan; 25(1):85-92. PubMed ID: 15519989
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  • 11. The relationship between physiological and mechanical properties of Acer platanoides L. and Tilia cordata Mill. leaves and their seasonal senescence.
    Ciupak A, Dziwulska-Hunek A, Gładyszewska B, Kwaśniewska A.
    Sci Rep; 2019 Mar 12; 9(1):4287. PubMed ID: 30862899
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  • 12. Synchrony in fall leaf drop: chlorophyll degradation, color change, and abscission layer formation in three temperate deciduous tree species.
    Primka EJ, Smith WK.
    Am J Bot; 2019 Mar 12; 106(3):377-388. PubMed ID: 30883683
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  • 13. Development of novel genic microsatellite markers from transcriptome sequencing in sugar maple (Acer saccharum Marsh.).
    Harmon M, Lane T, Staton M, Coggeshall MV, Best T, Chen CC, Liang H, Zembower N, Drautz-Moses DI, Hwee YZ, Schuster SC, Schlarbaum SE, Carlson JE, Gailing O.
    BMC Res Notes; 2017 Aug 08; 10(1):369. PubMed ID: 28789702
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  • 14. Photosynthesis and water-use efficiency of sugar maple (Acer saccharum) in relation to pear thrips defoliation.
    Ellsworth DS, Tyree MT, Parker BL, Skinner M.
    Tree Physiol; 1994 Jun 08; 14(6):619-32. PubMed ID: 14967678
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  • 15. Vegetation stress detection through chlorophyll a + b estimation and fluorescence effects on hyperspectral imagery.
    Zarco-Tejada PJ, Miller JR, Mohammed GH, Noland TL, Sampson PH.
    J Environ Qual; 2002 Jun 08; 31(5):1433-41. PubMed ID: 12371159
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  • 16. Effects of maple (Acer) plant part extracts on proliferation, apoptosis and cell cycle arrest of human tumorigenic and non-tumorigenic colon cells.
    González-Sarrías A, Li L, Seeram NP.
    Phytother Res; 2012 Jul 08; 26(7):995-1002. PubMed ID: 22147441
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  • 17. Combined metabolome and transcriptome analyses of photosynthetic pigments in red maple.
    Lu X, Chen Z, Gao J, Fu S, Hu H, Ren J.
    Plant Physiol Biochem; 2020 Sep 08; 154():476-490. PubMed ID: 32663649
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  • 18. Seasonal variation in biomass and carbohydrate partitioning of understory sugar maple (Acer saccharum) and yellow birch (Betula alleghaniensis) seedlings.
    Gaucher C, Gougeon S, Mauffette Y, Messier C.
    Tree Physiol; 2005 Jan 08; 25(1):93-100. PubMed ID: 15519990
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  • 19. Foliar phenolics in sugar maple (Acer saccharum) as a potential indicator of tropospheric ozone pollution.
    Sager EP, Hutchinson TC, Croley TR.
    Environ Monit Assess; 2005 Jun 08; 105(1-3):419-30. PubMed ID: 15952532
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  • 20. Phenolic compounds in red oak and sugar maple leaves have prooxidant activities in the midgut fluids of Malacosoma disstria and Orgyia leucostigma caterpillars.
    Barbehenn R, Cheek S, Gasperut A, Lister E, Maben R.
    J Chem Ecol; 2005 May 08; 31(5):969-88. PubMed ID: 16124227
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