Photosynthetic capacity of Eucalyptus globulus is higher when grown in mixture with Acacia mearnsii
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Assmann E (1970) The principles of forest yield study. Pergamon Press, Oxford
Bauhus J, Khanna PK, Menden N (2000) Aboveground and belowground interactions in mixed plantations of Eucalyptus globulus and Acacia mearnsii. Can J For Res 30:1886–1894
Bauhus J, van Winden AP, Nicotra AB (2004) Above-ground interactions and productivity in mixed-species plantations of Acacia mearnsii and Eucalyptus globulus. Can J For Res 34:686–694
Binkley D, Dunkin KA, DeBell D, Ryan MG (1992) Production and nutrient cycling in mixed plantations of Eucalyptus and Albizia in Hawaii. For Sci 38:393–408
Binkley D, Stape JL, Ryan MG (2004) Thinking about efficiency of resource use in forests. For Ecol Manag 193:5–16
Binkley D, Stape JL, Bauerle WL, Ryan MG (2010) Explaining growth of individual trees: light interception and efficiency of light use by Eucalyptus at four sites in Brazil. For Ecol Manag 259:1704–1713
Clearwater MJ, Meinzer FC (2001) Relationships between hydraulic architecture and leaf photosynthetic capacity in nitrogen-fertilized Eucalyptus grandis trees. Tree Physiol 21:683–690
Close DC, Battaglia M, Davidson NJ, Beadle CL (2004) Within-canopy gradients of nitrogen and photosynthetic activity of Eucalyptus nitens and Eucalyptus globulus in response to nitrogen nutrition. Aust J Bot 52:133–140
Farquhar GD, Sharkey TD (1982) Stomatal conductance and photosynthesis. Ann Rev Plant Physiol 33:317–345
Farquhar GD, von Caemmerer S, Berry JA (1980) A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species. Planta 149:78–90
Forrester DI (2004) Mixed-species plantation of nitrogen-fixing and non-nitrogen-fixing trees. PhD thesis. School of Resources, Environment and Society, The Australian National University, Canberra. ( http://thesis.anu.edu.au/public/adt-ANU20050202.164252/index.html ), pp 196
Forrester DI, Bauhus J, Khanna PK (2004) Growth dynamics in a mixed-species plantation of Eucalyptus globulus and Acacia mearnsii. For Ecol Manag 193:81–95
Forrester DI, Bauhus J, Cowie AL (2005) Nutrient cycling in a mixed-species plantation of Eucalyptus globulus and Acacia mearnsii. Can J For Res 35:2942–2950
Forrester DI, Bauhus J, Cowie AL (2006a) Carbon allocation in a mixed-species plantation of Eucalyptus globulus and Acacia mearnsii. For Ecol Manag 233:275–284
Forrester DI, Bauhus J, Cowie AL, Vanclay JK (2006b) Mixed-species plantations of Eucalyptus with nitrogen fixing trees: a review. For Ecol Manag 233:211–230
Forrester DI, Schortemeyer M, Stock WD, Bauhus J, Khanna PK, Cowie AL (2007) Assessing nitrogen fixation in mixed- and single-species plantations of Eucalyptus globulus and Acacia mearnsii. Tree Physiol 27:1319–1328
Forrester DI, Theiveyanathan S, Collopy JJ, Marcar NE (2010) Enhanced water use efficiency in a mixed Eucalyptus globulus and Acacia mearnsii plantation. For Ecol Manag 259:1761–1770
Grassi G, Meir P, Cromer R, Tompkins D, Jarvis PG (2002) Photosynthetic parameters in seedlings of Eucalyptus grandis as affected by rate of nitrogen supply. Plant Cell Env 25:1677–1688
Green TH, Mitchell RJ (1992) Effects of nitrogen on the response of Loblolly Pine to water strees. I. Photosynthesis and stomatal conductance. New Phytol 122:627–633
Groninger JW, Seiler JR, Zedaker SM, Berrang PC (1996) Effects of CO2 concentration and water availability on growth and gas exchange in greenhouse-grown miniature stands of Loblolly Pine and Red Maple. Funct Ecol 10:708–716
Gu L, Pallardy SG, Tu K, Law BE, Wullschleger SD (2010) Reliable estimation of biochemical parameters from C3 leaf photosynthesis-intercellular carbon dioxide response curves. Plant Cell Environ 33:1852–1874
Hall DO, Rao KK (1999) Photosynthesis. Cambridge University Press, Cambridge
Henderson DE, Jose S (2005) Production physiology of three fast-growing hardwood species along a soil resource gradient. Tree Physiol 25:1487–1494
Isbell RF (1998) The Australian soil classification. CSIRO Publishing, Collingwood
Kelty MJ (1992) Comparative productivity of monocultures and mixed-species stands. In: Kelty MJ, Larson BC, Oliver CD (eds) The ecology and silviculture of mixed-species forests. Kluwer Academic Publishers, Dordrecht, pp 125–141
Kozovits AR, Matyssek R, Blaschke H, Göttlein A, Grams TEE (2005) Competition increasingly dominates the responsiveness of juvenile beech and spruce to elevated CO2 and/or O3 concentrations throughout two subsequent growing seasons. Glob Change Biol 11:1387–1401
Küppers BIL (1996) Nitrogen and Rubisco contents in eucalypt canopies as affected by Acacia neighbourhood. Plant Physiol Biochem 34:753–760
Lee TD, Reich PB, Tjoelker MG (2003) Legume presence increases photosynthesis and N concentrations of co-occurring non-fixers but does not moderate their responsiveness to carbon dioxide enrichment. Oecologia 137:22–31
Leuning R, Cromer RN, Rance S (1991) Spatial distributions of foliar nitrogen and phosphorus in crowns of Eucalyptus grandis. Oecologia 88:504–510
Lichtenthaler HK (1987) Chlorophylls and carotenoids: pigments of photosynthetic biomembranes. Methods Enzymol 148:350–382
Litton CM, Raich JW, Ryan MG (2007) Carbon allocation in forest ecosystems. Glob Change Biol 13:2089–2109
Medhurst JL, Beadle CL (2005) Photosynthetic capacity and foliar nitrogen distribution in Eucalyptus nitens is altered by high-intensity thinning. Tree Physiol 25:981–991
Monteith JL (1977) Climate and the efficiency of crop production in Britain. Philos Trans Roy Soc Lond Ser B 281:277–294
Pereira JS, Chaves MM, Fonseca F, Araújo MC, Torres F (1992) Photosynthetic capacity of leaves of Eucalyptus globulus (Labill.) growing in the field with different nutrient and water supplies. Tree Physiol 11:381–389
Pinkard EA, Battaglia M, Mohammed CL (2007) Defoliation and nitrogen effects on photosynthesis and growth of Eucalyptus globulus. Tree Physiol 27:1053–1063
Richards AE, Forrester DI, Bauhus J, Scherer-Lorenzen M (2010) The influence of mixed tree plantations on the nutrition of individual species: a review. Tree Physiol 30:1192–1208
Sheriff DW, Nambiar EKS (1991) Nitrogen nutrition, growth and gas exchange in Eucalyptus globulus Labill, seedlings. Aust J Plant Physiol 18:37–52
Stace HCT, Hubble GD, Brewer R, Northcote KH, Sleeman JR, Mulcahy MJ, Hallsworth EG (1968) A handbook of Australian soils. Rellim, Glenside
Stape JL, Binkley D, Ryan MG (2004) Eucalyptus production and the supply, use and efficiency of use of water, light and nitrogen across a geographic gradient in Brazil. For Ecol Manag 193:17–31
Turnbull TL, Kelly N, Adams MA, Warren CR (2007) Within-canopy nitrogen and photosynthetic gradients are unaffected by soil fertility in field-grown Eucalyptus globulus. Tree Physiol 27:1607–1617
von Caemmerer S (2000) Biochemical models of leaf photosynthesis. Techniques in plant sciences No 2. CSIRO Publishing, Collingwood
Warren CR (2008) Does growth temperature affect the temperature responses of photosynthesis and internal conductance to CO2? A test with Eucalyptus regnans. Tree Physiol 28:11–19
Warren CR, Adams MA (2001) Distribution of N, Rubisco and photosynthesis in Pinus pinaster and acclimation to light. Plant Cell Env 24:597–609
Warren CR, Adams MA, Chen Z (2000) Is photosynthesis related to concentrations of nitrogen and Rubisco in leaves of Australian native plants? Aust J Plant Physiol 27:407–416