P. W. Hattersley scite author profile

All but four of 833 native and 292 naturalised Australian grasses (Poaceae) have been assigned as having the C or C photosynthetic pathway. In conjunction with comprehensive species composition data for 75 geographic subdivisions Australiawide, this has permitted the construction of distribution maps for C and C grasses. C and C grass distributions have been considered (i) independently, using subdivisional native species numbers; and (ii) relatively, using 'subdivisional % C'. C species are most numerous in the Southern Tablelands (New South Wales), the QZ subdivision (Victoria), and Tasmania; C species in the northern Northern Territory and northern Queensland, including the Cook subdivision where 54% of Australia's native C grasses can be found. C species predominate only in south-west Western Australia, parts of southern South Australia, the Tablelands, central and south coast, and south western slopes of New South Wales, Victoria and Tasmania. C species predominate over 80-85% of the continental area. For 16 temperature and rainfall variables, subdivisional area-weighted means were calculated, and correlation analyses performed. C species number correlates most highly with January average maximum temperature (-ve) and spring rainfall (+ve); C species number with October average minimum temperature (+ve) and February median rainfall (+ve); '%C' with January average minimum temperature (+ve). Predictive multiple linear regression equations were generated using climatic variables. In general, C grass species, like C species, increase in number with increasing rainfall, in their preferred temperature regime. C species are most numerous where the summer is hot and wet; C species where the spring is cool and wet. C species numbers decline with decreasing temperature and/or decreasing summer rainfall; C species numbers decline with increasing temperature and/or decreasing spring rainfall. Results are also considered in relation to the taxonomic and physiological heterogeneity of grasses and to Australia's geobotanic history.

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Quantitative Leaf Anatomy of C3 and C4 Grasses (Poaceae): Bundle Sheath and Mesophyll Surface Area Relationships

Dengler

Donnelly

et al. 1994

171

166

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Characterization of C4 Type Leaf Anatomy in Grasses (Poaceae). Mesophyll: Bundle Sheath Area Ratios

Hattersley

1984

119

103

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Evolutionary implications of C₃–C₄ intermediates in the grass Alloteropsis semialata

Lundgren

Christin

Escobar

et al. 2016

Plant Cell & Environment

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Occurrence of the suberized lamella in leaves of grasses of different photosynthetic types. I. In parenchymatous bundle sheaths and PCR (?Kranz?) sheaths

1981

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P. W. Hattersley

The distribution of C3 and C4 grasses in Australia in relation to climate

Quantitative Leaf Anatomy of C3 and C4 Grasses (Poaceae): Bundle Sheath and Mesophyll Surface Area Relationships

Characterization of C4 Type Leaf Anatomy in Grasses (Poaceae). Mesophyll: Bundle Sheath Area Ratios

Evolutionary implications of C₃–C₄ intermediates in the grass Alloteropsis semialata

Occurrence of the suberized lamella in leaves of grasses of different photosynthetic types. I. In parenchymatous bundle sheaths and PCR (?Kranz?) sheaths

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P. W. Hattersley

The distribution of C3 and C4 grasses in Australia in relation to climate

Quantitative Leaf Anatomy of C3 and C4 Grasses (Poaceae): Bundle Sheath and Mesophyll Surface Area Relationships

Characterization of C4 Type Leaf Anatomy in Grasses (Poaceae). Mesophyll: Bundle Sheath Area Ratios

Evolutionary implications of C3–C4 intermediates in the grass Alloteropsis semialata

Occurrence of the suberized lamella in leaves of grasses of different photosynthetic types. I. In parenchymatous bundle sheaths and PCR (?Kranz?) sheaths

Contact Info

Product

Resources

About

Evolutionary implications of C₃–C₄ intermediates in the grass Alloteropsis semialata