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Items: 1 to 50 of 67

1.

Nitrogen and Phosphorus Retranslocation of Leaves and Stemwood in a Mature Eucalyptus Forest Exposed to 5 Years of Elevated CO2.

Crous KY, Wujeska-Klause A, Jiang M, Medlyn BE, Ellsworth DS.

Front Plant Sci. 2019 May 31;10:664. doi: 10.3389/fpls.2019.00664. eCollection 2019.

2.

Elevated CO2 does not affect stem CO2 efflux nor stem respiration in a dry Eucalyptus woodland, but it shifts the vertical gradient in xylem [CO2 ].

Salomón RL, Steppe K, Crous KY, Noh NJ, Ellsworth DS.

Plant Cell Environ. 2019 Jul;42(7):2151-2164. doi: 10.1111/pce.13550. Epub 2019 Apr 23.

PMID:
30903994
3.

Lower photorespiration in elevated CO2 reduces leaf N concentrations in mature Eucalyptus trees in the field.

Wujeska-Klause A, Crous KY, Ghannoum O, Ellsworth DS.

Glob Chang Biol. 2019 Feb 20. doi: 10.1111/gcb.14555. [Epub ahead of print]

PMID:
30788883
4.

Towards a more physiological representation of vegetation phosphorus processes in land surface models.

Jiang M, Caldararu S, Zaehle S, Ellsworth DS, Medlyn BE.

New Phytol. 2019 May;222(3):1223-1229. doi: 10.1111/nph.15688. Epub 2019 Feb 19. Review.

PMID:
30659603
5.

Acclimation and adaptation components of the temperature dependence of plant photosynthesis at the global scale.

Kumarathunge DP, Medlyn BE, Drake JE, Tjoelker MG, Aspinwall MJ, Battaglia M, Cano FJ, Carter KR, Cavaleri MA, Cernusak LA, Chambers JQ, Crous KY, De Kauwe MG, Dillaway DN, Dreyer E, Ellsworth DS, Ghannoum O, Han Q, Hikosaka K, Jensen AM, Kelly JWG, Kruger EL, Mercado LM, Onoda Y, Reich PB, Rogers A, Slot M, Smith NG, Tarvainen L, Tissue DT, Togashi HF, Tribuzy ES, Uddling J, Vårhammar A, Wallin G, Warren JM, Way DA.

New Phytol. 2019 Apr;222(2):768-784. doi: 10.1111/nph.15668. Epub 2019 Feb 8.

PMID:
30597597
6.

The validity of optimal leaf traits modelled on environmental conditions.

Bloomfield KJ, Prentice IC, Cernusak LA, Eamus D, Medlyn BE, Rumman R, Wright IJ, Boer MM, Cale P, Cleverly J, Egerton JJG, Ellsworth DS, Evans BJ, Hayes LS, Hutchinson MF, Liddell MJ, Macfarlane C, Meyer WS, Togashi HF, Wardlaw T, Zhu L, Atkin OK.

New Phytol. 2019 Feb;221(3):1409-1423. doi: 10.1111/nph.15495. Epub 2018 Oct 29.

PMID:
30242841
7.

Elevated CO2 did not affect the hydrological balance of a mature native Eucalyptus woodland.

Gimeno TE, McVicar TR, O'Grady AP, Tissue DT, Ellsworth DS.

Glob Chang Biol. 2018 Jul;24(7):3010-3024. doi: 10.1111/gcb.14139. Epub 2018 Apr 17.

PMID:
29569803
8.

Water availability affects seasonal CO2 -induced photosynthetic enhancement in herbaceous species in a periodically dry woodland.

Pathare VS, Crous KY, Cooke J, Creek D, Ghannoum O, Ellsworth DS.

Glob Chang Biol. 2017 Dec;23(12):5164-5178. doi: 10.1111/gcb.13778. Epub 2017 Jul 10.

PMID:
28691268
9.

Species climate range influences hydraulic and stomatal traits in Eucalyptus species.

Bourne AE, Creek D, Peters JMR, Ellsworth DS, Choat B.

Ann Bot. 2017 Jul 1;120(1):123-133. doi: 10.1093/aob/mcx020.

10.

Linking photosynthesis and leaf N allocation under future elevated CO2 and climate warming in Eucalyptus globulus.

Sharwood RE, Crous KY, Whitney SM, Ellsworth DS, Ghannoum O.

J Exp Bot. 2017 Feb 1;68(5):1157-1167. doi: 10.1093/jxb/erw484.

11.

Using models to guide field experiments: a priori predictions for the CO2 response of a nutrient- and water-limited native Eucalypt woodland.

Medlyn BE, De Kauwe MG, Zaehle S, Walker AP, Duursma RA, Luus K, Mishurov M, Pak B, Smith B, Wang YP, Yang X, Crous KY, Drake JE, Gimeno TE, Macdonald CA, Norby RJ, Power SA, Tjoelker MG, Ellsworth DS.

Glob Chang Biol. 2016 Aug;22(8):2834-51. doi: 10.1111/gcb.13268. Epub 2016 May 9.

PMID:
26946185
12.

A test of the 'one-point method' for estimating maximum carboxylation capacity from field-measured, light-saturated photosynthesis.

De Kauwe MG, Lin YS, Wright IJ, Medlyn BE, Crous KY, Ellsworth DS, Maire V, Prentice IC, Atkin OK, Rogers A, Niinemets Ü, Serbin SP, Meir P, Uddling J, Togashi HF, Tarvainen L, Weerasinghe LK, Evans BJ, Ishida FY, Domingues TF.

New Phytol. 2016 May;210(3):1130-44. doi: 10.1111/nph.13815. Epub 2015 Dec 31. Erratum in: New Phytol. 2016 Nov;212(3):792.

13.

Canopy leaf area of a mature evergreen Eucalyptus woodland does not respond to elevated atmospheric [CO2] but tracks water availability.

Duursma RA, Gimeno TE, Boer MM, Crous KY, Tjoelker MG, Ellsworth DS.

Glob Chang Biol. 2016 Apr;22(4):1666-76. doi: 10.1111/gcb.13151. Epub 2016 Feb 9.

PMID:
26546378
14.

Photosynthetic enhancement by elevated CO₂ depends on seasonal temperatures for warmed and non-warmed Eucalyptus globulus trees.

Quentin AG, Crous KY, Barton CV, Ellsworth DS.

Tree Physiol. 2015 Nov;35(11):1249-63. doi: 10.1093/treephys/tpv110. Epub 2015 Oct 23.

PMID:
26496960
15.

Short-term carbon cycling responses of a mature eucalypt woodland to gradual stepwise enrichment of atmospheric CO2 concentration.

Drake JE, Macdonald CA, Tjoelker MG, Crous KY, Gimeno TE, Singh BK, Reich PB, Anderson IC, Ellsworth DS.

Glob Chang Biol. 2016 Jan;22(1):380-90. doi: 10.1111/gcb.13109. Epub 2015 Nov 7.

PMID:
26426394
16.

Non-structural carbohydrates in woody plants compared among laboratories.

Quentin AG, Pinkard EA, Ryan MG, Tissue DT, Baggett LS, Adams HD, Maillard P, Marchand J, Landhäusser SM, Lacointe A, Gibon Y, Anderegg WR, Asao S, Atkin OK, Bonhomme M, Claye C, Chow PS, Clément-Vidal A, Davies NW, Dickman LT, Dumbur R, Ellsworth DS, Falk K, Galiano L, Grünzweig JM, Hartmann H, Hoch G, Hood S, Jones JE, Koike T, Kuhlmann I, Lloret F, Maestro M, Mansfield SD, Martínez-Vilalta J, Maucourt M, McDowell NG, Moing A, Muller B, Nebauer SG, Niinemets Ü, Palacio S, Piper F, Raveh E, Richter A, Rolland G, Rosas T, Saint Joanis B, Sala A, Smith RA, Sterck F, Stinziano JR, Tobias M, Unda F, Watanabe M, Way DA, Weerasinghe LK, Wild B, Wiley E, Woodruff DR.

Tree Physiol. 2015 Nov;35(11):1146-65. doi: 10.1093/treephys/tpv073. Epub 2015 Sep 29.

PMID:
26423132
17.

Model-data synthesis for the next generation of forest free-air CO2 enrichment (FACE) experiments.

Norby RJ, De Kauwe MG, Domingues TF, Duursma RA, Ellsworth DS, Goll DS, Lapola DM, Luus KA, MacKenzie AR, Medlyn BE, Pavlick R, Rammig A, Smith B, Thomas R, Thonicke K, Walker AP, Yang X, Zaehle S.

New Phytol. 2016 Jan;209(1):17-28. doi: 10.1111/nph.13593. Epub 2015 Aug 6.

18.

Stomatal sensitivity to vapour pressure deficit relates to climate of origin in Eucalyptus species.

Bourne AE, Haigh AM, Ellsworth DS.

Tree Physiol. 2015 Mar;35(3):266-78. doi: 10.1093/treephys/tpv014. Epub 2015 Mar 12.

PMID:
25769338
19.

Phosphorus recycling in photorespiration maintains high photosynthetic capacity in woody species.

Ellsworth DS, Crous KY, Lambers H, Cooke J.

Plant Cell Environ. 2015 Jun;38(6):1142-56. doi: 10.1111/pce.12468. Epub 2015 Jan 29.

20.

Drought increases heat tolerance of leaf respiration in Eucalyptus globulus saplings grown under both ambient and elevated atmospheric [CO2] and temperature.

Gauthier PP, Crous KY, Ayub G, Duan H, Weerasinghe LK, Ellsworth DS, Tjoelker MG, Evans JR, Tissue DT, Atkin OK.

J Exp Bot. 2014 Dec;65(22):6471-85. doi: 10.1093/jxb/eru367. Epub 2014 Sep 9.

21.

Biochemical photosynthetic responses to temperature: how do interspecific differences compare with seasonal shifts?

Lin YS, Medlyn BE, De Kauwe MG, Ellsworth DS.

Tree Physiol. 2013 Aug;33(8):793-806. doi: 10.1093/treephys/tpt047. Epub 2013 Jul 9.

PMID:
23843350
22.

Photosynthesis of temperate Eucalyptus globulus trees outside their native range has limited adjustment to elevated CO2 and climate warming.

Crous KY, Quentin AG, Lin YS, Medlyn BE, Williams DG, Barton CV, Ellsworth DS.

Glob Chang Biol. 2013 Dec;19(12):3790-807. doi: 10.1111/gcb.12314. Epub 2013 Oct 11.

PMID:
23824839
23.

Forest water use and water use efficiency at elevated CO2 : a model-data intercomparison at two contrasting temperate forest FACE sites.

De Kauwe MG, Medlyn BE, Zaehle S, Walker AP, Dietze MC, Hickler T, Jain AK, Luo Y, Parton WJ, Prentice IC, Smith B, Thornton PE, Wang S, Wang YP, Wårlind D, Weng E, Crous KY, Ellsworth DS, Hanson PJ, Seok Kim H, Warren JM, Oren R, Norby RJ.

Glob Chang Biol. 2013 Jun;19(6):1759-79. doi: 10.1111/gcb.12164. Epub 2013 Mar 25.

PMID:
23504858
24.

Interactive direct and plant-mediated effects of elevated atmospheric [CO2 ] and temperature on a eucalypt-feeding insect herbivore.

Murray TJ, Ellsworth DS, Tissue DT, Riegler M.

Glob Chang Biol. 2013 May;19(5):1407-16. doi: 10.1111/gcb.12142. Epub 2013 Feb 11.

PMID:
23504696
25.

Sensitivity of plants to changing atmospheric CO2 concentration: from the geological past to the next century.

Franks PJ, Adams MA, Amthor JS, Barbour MM, Berry JA, Ellsworth DS, Farquhar GD, Ghannoum O, Lloyd J, McDowell N, Norby RJ, Tissue DT, von Caemmerer S.

New Phytol. 2013 Mar;197(4):1077-94. doi: 10.1111/nph.12104. Epub 2013 Jan 25. Review.

26.

Interactive effects of pre-industrial, current and future [CO2] and temperature on an insect herbivore of Eucalyptus.

Murray TJ, Tissue DT, Ellsworth DS, Riegler M.

Oecologia. 2013 Apr;171(4):1025-35. doi: 10.1007/s00442-012-2467-9. Epub 2012 Oct 2.

PMID:
23053228
27.

Optimal stomatal conductance in relation to photosynthesis in climatically contrasting Eucalyptus species under drought.

Héroult A, Lin YS, Bourne A, Medlyn BE, Ellsworth DS.

Plant Cell Environ. 2013 Feb;36(2):262-74. doi: 10.1111/j.1365-3040.2012.02570.x. Epub 2012 Aug 7.

28.

Do thick leaves avoid thermal damage in critically low wind speeds?

Leigh A, Sevanto S, Ball MC, Close JD, Ellsworth DS, Knight CA, Nicotra AB, Vogel S.

New Phytol. 2012 Apr;194(2):477-87. doi: 10.1111/j.1469-8137.2012.04058.x. Epub 2012 Feb 1.

29.

Temperature responses of leaf net photosynthesis: the role of component processes.

Lin YS, Medlyn BE, Ellsworth DS.

Tree Physiol. 2012 Feb;32(2):219-31. doi: 10.1093/treephys/tpr141. Epub 2012 Jan 25.

PMID:
22278379
30.

Light inhibition of leaf respiration in field-grown Eucalyptus saligna in whole-tree chambers under elevated atmospheric CO2 and summer drought.

Crous KY, Zaragoza-Castells J, Ellsworth DS, Duursma RA, Löw M, Tissue DT, Atkin OK.

Plant Cell Environ. 2012 May;35(5):966-81. doi: 10.1111/j.1365-3040.2011.02465.x. Epub 2011 Dec 14.

31.

Light interception efficiency explained by two simple variables: a test using a diversity of small- to medium-sized woody plants.

Duursma RA, Falster DS, Valladares F, Sterck FJ, Pearcy RW, Lusk CH, Sendall KM, Nordenstahl M, Houter NC, Atwell BJ, Kelly N, Kelly JW, Liberloo M, Tissue DT, Medlyn BE, Ellsworth DS.

New Phytol. 2012 Jan;193(2):397-408. doi: 10.1111/j.1469-8137.2011.03943.x. Epub 2011 Nov 8.

32.

Lifetime return on investment increases with leaf lifespan among 10 Australian woodland species.

Falster DS, Reich PB, Ellsworth DS, Wright IJ, Westoby M, Oleksyn J, Lee TD.

New Phytol. 2012 Jan;193(2):409-19. doi: 10.1111/j.1469-8137.2011.03940.x. Epub 2011 Nov 8.

33.

Interactive effects of elevated CO2 and drought on nocturnal water fluxes in Eucalyptus saligna.

Zeppel MJ, Lewis JD, Medlyn B, Barton CV, Duursma RA, Eamus D, Adams MA, Phillips N, Ellsworth DS, Forster MA, Tissue DT.

Tree Physiol. 2011 Sep;31(9):932-44. doi: 10.1093/treephys/tpr024. Epub 2011 May 25.

PMID:
21616926
34.

Rooting depth explains [CO2] x drought interaction in Eucalyptus saligna.

Duursma RA, Barton CV, Eamus D, Medlyn BE, Ellsworth DS, Forster MA, Tissue DT, Linder S, McMurtrie RE.

Tree Physiol. 2011 Sep;31(9):922-31. doi: 10.1093/treephys/tpr030. Epub 2011 May 12.

PMID:
21571724
35.

Stomatal uptake of O3 in aspen and aspen-birch forests under free-air CO2 and O3 enrichment.

Uddling J, Hogg AJ, Teclaw RM, Carroll MA, Ellsworth DS.

Environ Pollut. 2010 Jun;158(6):2023-31. doi: 10.1016/j.envpol.2009.12.001. Epub 2010 Jan 20.

PMID:
20089338
36.

Challenges in elevated CO2 experiments on forests.

ESF-Forest FACE Group, Calfapietra C, Ainsworth EA, Beier C, De Angelis P, Ellsworth DS, Godbold DL, Hendrey GR, Hickler T, Hoosbeek MR, Karnosky DF, King J, Körner C, Leakey AD, Lewin KF, Liberloo M, Long SP, Lukac M, Matyssek R, Miglietta F, Nagy J, Norby RJ, Oren R, Percy KE, Rogers A, Mugnozza GS, Stitt M, Taylor G, Ceulemans R.

Trends Plant Sci. 2010 Jan;15(1):5-10. doi: 10.1016/j.tplants.2009.11.001. Epub 2009 Dec 1.

PMID:
19955012
37.

Leaf and canopy conductance in aspen and aspen-birch forests under free-air enrichment of carbon dioxide and ozone.

Uddling J, Teclaw RM, Pregitzer KS, Ellsworth DS.

Tree Physiol. 2009 Nov;29(11):1367-80. doi: 10.1093/treephys/tpp070. Epub 2009 Sep 22.

PMID:
19773339
38.

Controls on declining carbon balance with leaf age among 10 woody species in Australian woodland: do leaves have zero daily net carbon balances when they die?

Reich PB, Falster DS, Ellsworth DS, Wright IJ, Westoby M, Oleksyn J, Lee TD.

New Phytol. 2009;183(1):153-66. doi: 10.1111/j.1469-8137.2009.02824.x. Epub 2009 Mar 31.

39.

Sap flux in pure aspen and mixed aspen-birch forests exposed to elevated concentrations of carbon dioxide and ozone.

Uddling J, Teclaw RM, Kubiske ME, Pregitzer KS, Ellsworth DS.

Tree Physiol. 2008 Aug;28(8):1231-43.

PMID:
18519254
40.
41.
42.

Nitrogen limitation constrains sustainability of ecosystem response to CO2.

Reich PB, Hobbie SE, Lee T, Ellsworth DS, West JB, Tilman D, Knops JM, Naeem S, Trost J.

Nature. 2006 Apr 13;440(7086):922-5.

44.

Species and functional group diversity independently influence biomass accumulation and its response to CO2 and N.

Reich PB, Tilman D, Naeem S, Ellsworth DS, Knops J, Craine J, Wedin D, Trost J.

Proc Natl Acad Sci U S A. 2004 Jul 6;101(27):10101-6. Epub 2004 Jun 25.

45.

Carbon dioxide and water vapor exchange in a warm temperate grassland.

Novick KA, Stoy PC, Katul GG, Ellsworth DS, Siqueira MB, Juang J, Oren R.

Oecologia. 2004 Jan;138(2):259-74. Epub 2003 Nov 20.

46.

Seasonal CO(2) assimilation and stomatal limitations in a Pinus taeda canopy.

Ellsworth DS.

Tree Physiol. 2000 Apr;20(7):435-445.

PMID:
12651439
47.
48.
49.

Site fertility and the morphological and photosynthetic acclimation of Pinus sylvestris needles to light.

Niinemets U, Ellsworth DS, Lukjanova A, Tobias M.

Tree Physiol. 2001 Nov;21(17):1231-44.

PMID:
11696411

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