SEARCH

SEARCH BY CITATION

References

  • Akhani H, Barroca J, Koteeva N, Voznesenskaya E, Franceschi V, Edwards GE, Ghaffari SM, Ziegler H. 2005. Bienertia sinuspersici (Chenopodiaceae): a new species from southwest Asia and discovery of a third terrestrial C4 plant without Kranz anatomy. Systematic Botany 30: 290301.
  • Akhani H, Chatrenoor T, Dehghani M, Khoshravesh M, Mahdavi P, Matinzadeh Z. 2012. A new species of Bienertia (Chenopodiaceae) from Iranian salt deserts: a third species of the genus and discovery of a fourth terrestrial C4 plant without Kranz anatomy. Plant Biosystems 146: 550559.
  • Akhani H, Lara MV, Ghasemkhani M, Ziegler H, Edwards GE. 2009. Does Bienertia cycloptera with the single-cell system of C4 photosynthesis exhibit a seasonal pattern of δ13C values in nature similar to co-existing C4 Chenopodiaceae having the dual-cell (Kranz) system? Photosynthesis Research 99: 2336.
  • von Caemmerer S. 2000. Biochemical models of leaf photosynthesis. Collingwood, Vic., Australia: CSIRO Publishing.
  • von Caemmerer S. 2003. C4 photosynthesis in a single C3 cell is theoretically inefficient but may ameliorate internal CO2 diffusion limitations of C3 leaves. Plant, Cell & Environment 26: 11911197.
  • von Caemmerer S, Furbank RT. 1999. Modeling C4 photosynthesis. In: Sage RF, Monson RK, eds. C4 plant biology. San Diego, CA, USA: Academic Press, 173211.
  • von Caemmerer S, Furbank RT. 2003. The C4 pathway: an efficient CO2 pump. Photosynthesis Research 77: 191207.
  • von Caemmerer S, Ludwig M, Millgate A, Farquhar GD, Price GD, Badger M, Furbank RT. 1997. Carbon isotope discrimination during C4 photosynthesis: insights from transgenic plants. Australian Journal of Plant Physiology 24: 487494.
  • Cousins AB, Badger MR, von Caemmerer S. 2006. Carbonic anhydrase and its influence on carbon isotope discrimination during C4 photosynthesis. Insights from antisense RNA in Flaveria bidentis. Plant Physiology 141: 232242.
  • Cousins AB, Badger MR, von Caemmerer S. 2008. C4 photosynthetic isotope exchange in NAD-ME- and NADP-ME-type grasses. Journal of Experimental Botany 59: 16951703.
  • Cousins AB, Baroli I, Badger MR, Ivakov A, Lea PJ, Leegood RC, von Caemmerer S. 2007. The role of phosphoenolpyruvate carboxylase during C4 photosynthetic isotope exchange and stomatal conductance. Plant Physiology 145: 10061017.
  • Dai Z, Ku MSB, Edwards GE. 1993. C4 photosynthesis: the CO2-concentrating mechanism and photorespiration. Plant Physiology 103: 8390.
  • Edwards GE, Franceschi VR, Voznesenskaya EV. 2004. Single cell C4 photosynthesis versus the dual-cell (Kranz) paradigm. Annual Review of Plant Biology 55: 173196.
  • Edwards GE, Walker DA. 1983. C3, C4: mechanisms, and cellular and environmental regulation, of photosynthesis. Oxford, UK: Blackwell Scientific Publications.
  • Evans JR, von Caemmerer S. 1996. Carbon dioxide diffusion inside leaves. Plant Physiology 110: 339346.
  • Evans JR, von Caemmerer S, Setchell BA, Hudson GS. 1994. The relationship between CO2 transfer conductance and leaf anatomy in transgenic tobacco with a reduced content of Rubisco. Australian Journal of Plant Physiology 21: 475495.
  • Evans JR, Sharkey TD, Berry JA, Farquhar GD. 1986. Carbon isotope discrimination measured concurrently with gas-exchange to investigate CO2 diffusion in leaves of higher-plants. Australian Journal of Plant Physiology 13: 281292.
  • Farquhar GD. 1983. On the nature of carbon isotope discrimination in C4 species. Australian Journal of Plant Physiology 10: 205226.
  • Farquhar GD, Cernusak LA. 2012. Ternary effects on the gas exchange of isotopologues of carbon dioxide. Plant, Cell & Environment 35: 12211231.
  • Freitag H, Stichler W. 2002. Bienertia cycloptera Bunge ex Boiss., Chenopodiaceae, another C4 plant without Kranz tissues. Plant Biology 4: 121131.
  • Gillon JS, Borland AM, Harwood KG, Roberts A, Broadmeadow MSJ, Griffiths H. 1998. Carbon isotope discrimination in terrestrial plants: carboxylations and decarboxylations. In: Griffiths H, ed. Stable isotopes: integration of biological, ecological and geochemical processes. Oxford, UK: BIOS, 111131.
  • Gillon JS, Griffiths H. 1997. The influence of (photo)respiration on carbon isotope discrimination in plants. Plant, Cell & Environment 20: 12171230.
  • Hatch MD. 1987. C4 photosynthesis: a unique blend of modified biochemistry, anatomy and ultrastructure. Biochimica et Biophysica Acta 895: 81106.
  • Hatch MD, Osmond CB. 1976. Compartmentation and transport in C4 photosynthesis. In: Stocking CR, Heber U, eds. Encyclopedia of plant physiology, M.S. vol. 3: transport in plants III. Berlin, Germany: Springer, 114184.
  • Henderson SA, von Caemmerer S, Farquhar GD. 1992. Short-term carbon isotope discrimination in several C4 species. Australian Journal of Plant Physiology 19: 263285.
  • Keeley JE, Rundel PW. 2003. Evolution of CAM and C4 carbon-concentrating mechanisms. International Journal of Plant Sciences 164: 5577.
  • King JL, Edwards GE, Cousins AB. 2012. The efficiency of the CO2-concentrating mechanism during single-cell C4 photosynthesis. Plant, Cell & Environment 35: 513523.
  • Kromdijk J, Griffiths H, Schepers HE. 2010. Can the progressive increase of C4 bundle-sheath leakiness at low PFD be explained by incomplete suppression of photorespiration? Plant, Cell & Environment 33: 19351948.
  • Kromdijk J, Schepers HE, Albanito F, Fitton N, Carroll F, Jones MB, Finnan J, Lanigan GJ, Griffiths H. 2008. Bundle-sheath leakiness and light limitation during C4 leaf and canopy CO2 uptake. Plant Physiology 148: 21442155.
  • Lanigan GJ, Betson N, Griffiths H, Seibt U. 2008. Carbon isotope fractionation during photorespiration and carboxylation in Senecio. Plant Physiology 148: 20132020.
  • Leisner CP. 2009. Salinity tolerance in the single-cell C4 species Bienertia sinuspersici and the Kranz-type C4 species Suaeda eltonica (Chenopodiaceae). MS thesis, Washington State University, Pullman, WA, USA.
  • Leisner CP, Cousins AB, Offermann S, Okita TW, Edwards GE. 2010. The effects of salinity on photosynthesis and growth of the single-cell C4 species Bienertia sinuspersici (Chenopodiaceae). Photosynthesis Research 106: 201214.
  • Maroco JP, Ku MSB, Edwards GE. 1997. Oxygen sensitivity of C4 photosynthesis: evidence from gas exchange and chlorophyll fluorescence analyses with different C4 subtypes. Plant, Cell & Environment 20: 15251533.
  • Maroco JP, Ku MSB, Edwards GE. 2000. Utilization of O2 in the metabolic optimization of C4 photosynthesis. Plant, Cell & Environment 23: 115121.
  • Offermann S, Okita T, Edwards GE. 2011. Resolving the compartmentation and function of C4 photosynthesis in the single-cell C4 species Bienertia sinuspersici. Plant Physiology 155: 16121628.
  • Pengelly JJL, Sirault XRR, Tazoe Y, Evans JR, Furbank RT, von Caemmerer S. 2010. Growth of the C4 dicot Flaveria bidentis: photosynthetic acclimation to low light through shifts in leaf anatomy and biochemistry. Journal of Experimental Botany 61: 41094122.
  • Ritchie RJ. 2006. Consistent sets of spectrophotometric chlorophyll equations for acetone, methanol and ethanol solvents. Photosynthesis Research 89: 2741.
  • Roeske CA, O'Leary MH. 1984. Carbon isotope effects on the enzyme-catalyzed carboxylation of ribulose bisphosphate. Biochemistry 23: 62756284.
  • Sage RF. 2002. C4 photosynthesis in terrestrial plants does not require Kranz anatomy. Trends in Plant Science 7: 283285.
  • Sage RF. 2004. The evolution of C4 photosynthesis. New Phytologist 161: 341370.
  • Sage RF, McKown AD. 2006. Is C4 photosynthesis less phenotypically plastic than C3 photosynthesis? Journal of Experimental Botany 57: 303317.
  • Sharpe RM, Offermann S. 2013. One decade after the discovery of single-cell C4 species in terrestrial plants: what did we learn about the minimal requirements of C4 photosynthesis? Photosynthesis Research. doi: 10.1007/s11120-013-9810-9.
  • Skillman JB. 2008. Quantum yield variation across the three pathways of photosynthesis: not yet out of the dark. Journal of Experimental Botany 59: 16471661.
  • Smith ME, Koteyeva NK, Voznesenskaya EV, Okita TW, Edwards GE. 2009. Photosynthetic features of non-Kranz type C4 versus Kranz type C4 and C3 species in subfamily Suaedoideae (Chenopodiaceae). Functional Plant Biology 36: 770782.
  • Sun W, Ubierna N, Ma JY, Cousins AB. 2012. The influence of light quality on C4 photosynthesis under steady-state conditions in Zea mays and Miscanthus × giganteus: changes in rates of photosynthesis but not the efficiency of the CO2 concentrating mechanism. Plant, Cell & Environment 35: 982993.
  • Tazoe Y, Hanba YT, Furumoto T, Noguchi K, Terashima I. 2008. Relationships between quantum yield for CO2 assimilation, activity of key enzymes and CO2 leakiness in Amaranthus cruentus, a C4 dicot, grown in high or low light. Plant & Cell Physiology 49: 1929.
  • Tazoe Y, Noguchi K, Terashima I. 2006. Effects of growth light and nitrogen nutrition on the organization of the photosynthetic apparatus in leaves of a C4 plant Amaranthus cruentus. Plant, Cell & Environment 29: 691700.
  • Terashima I, Hanba Y, Tazoe Y, Vyas P, Yano S. 2006. Irradiance and phenotype: comparative eco-development of sun and shade leaves in relation to photosynthetic CO2 diffusion. Journal of Experimental Botany 57: 343354.
  • Ubierna N, Sun W, Cousins AB. 2011. The efficiency of C4 photosynthesis under low light conditions: assumptions and calculations with CO2 isotope discrimination. Journal of Experimental Botany 62: 31193134.
  • Ubierna N, Sun W, Kramer DM, Cousins AB. 2013. The efficiency of C4 photosynthesis under low light conditions in Zea mays, Miscanthus × giganteus and Flaveria bidentis. Plant, Cell & Environment 36: 365381.
  • Voznesenskaya EV, Franceschi VR, Kiirats O, Artynsheva EG, Freitag H, Edwards GE. 2002. Proof of C4 photosynthesis without Kranz anatomy in Bienertia cycloptera (Chenopodiaceae). Plant Journal 31: 649666.
  • Voznesenskaya EV, Franceschi VR, Kiirats O, Freitag H, Edwards GE. 2001. Kranz anatomy is not essential for terrestrial C4 plant photosynthesis. Nature 414: 543546.
  • Wingate L, Seibt U, Moncrieff JB, Jarvis PG, Lloyd J. 2007. Variations in 13C discrimination during CO2 exchange by Picea sitchensis branches in the field. Plant, Cell & Environment 30: 600616.