Thomas C. Vogelmann

Best Publications

• Plant Tissue Optics

  Unknown

  603
  Citations

• Primary productivity of planet earth: biological determinants and physical constraints in terrestrial and aquatic habitats

  Richard J. Geider;Evan H. Delucia;Paul G. Falkowski;Adrien C. Finzi

  499
  Citations

• Leaf Form and Photosynthesis

  William K. Smith;Thomas C. Vogelmann;Evan H. DeLucia;David T. Bell

  470
  Citations

• Are some plant life forms more effective than others in screening out ultraviolet-B radiation?

  T. A. Day;T. C. Vogelmann;E. H. DeLucia

  340
  Citations

• Functional interaction between leaf trichomes, leaf wettability and the optical properties of water droplets

  C. A. Brewer;W. K. Smith;T. C. Vogelmann

  320
  Citations

• The functional significance of palisade tissue : penetration of directional versus diffuse light

  Unknown

  319
  Citations

• Green Light Drives CO2 Fixation Deep within Leaves

  Unknown

  300
  Citations

• Profiles of light absorption and chlorophyll within spinach leaves from chlorophyll fluorescence

  Thomas C Vogelmann;John Evans

  286
  Citations

• Effect of UV-B Radiation on Leaf Optical Properties Measured with Fibre Optics

  Janet F Bornman;Thomas C. Vogelmann

  267
  Citations

• Chlorophyll and light gradients in sun and shade leaves of Spinacia oleracea

  M. Cui;T. C. Vogelmann;W. K. Smith

  261
  Citations

• Do changes in light direction affect absorption profiles in leaves

  Craig R. Brodersen;Thomas C. Vogelmann

  251
  Citations

• Measurement of light gradients and spectral regime in plant-tissue with a fiber optic probe

  Thomas C. Vogelmann;Lars Olof Bjorn

  242
  Citations

• Penetration of UV‐B radiation in foliage: evidence that the epidermis behaves as a non‐uniform filter

  Thomas Day;G. Martin;T. C. Vogelmann

  227
  Citations

• Photosynthetic Light Gradients and Spectral Regime within Leaves of Medicago sativa

  T. C. Vogelmann;J. F. Bornman;S. Josserand

  176
  Citations

• Profiles of 14C fixation through spinach leaves in relation to light absorption and photosynthetic capacity

  John Evans;Thomas C Vogelmann

  175
  Citations

• Contribution of intercellular reflectance to photosynthesis in shade leaves

  Evan H Delucia;K. Nelson;T. C. Vogelmann;W. K. Smith

  164
  Citations

• Carbon Fixation Gradients across Spinach Leaves Do Not Follow Internal Light Gradients.

  Unknown

  160
  Citations

• A new paradigm in leaf-level photosynthesis: direct and diffuse lights are not equal.

  Craig R. Brodersen;Thomas C. Vogelmann;William E. Williams;Holly L. Gorton

  151
  Citations

• Effects of Epidermal Cell Shape and Pigmentation on Optical Properties of Antirrhinum Petals at Visible and Ultraviolet Wavelengths

  Unknown

  151
  Citations

• Focusing of light by leaf epidermal cells

  Thomas C. Vogelmann;Janet F. Bornman;David J. Yates

  148
  Citations

• Do epidermal lens cells facilitate the absorptance of diffuse light

  Craig R. Brodersen;Thomas C. Vogelmann

  132
  Citations

• Profiles of photosynthesis within red and green leaves of Quintinia serrata

  Kevin S. Gould;Thomas C. Vogelmann;Thomas C. Vogelmann;Tao Han;Michael J. Clearwater

  117
  Citations

• A unified explanation for anthocyanins in leaves

  Kevin S. Gould;Sam O. Neill;Thomas C. Vogelmann

  98
  Citations

• Measurement of light within thin plant tissues with fiber optic microprobes

  Thomas C. Vogelmann;Alan K. Knapp;Therese M. McClean;William K. Smith

  91
  Citations

• Photosynthesis within isobilateral Eucalyptus pauciflora leaves

  John R. Evans;Thomas C. Vogelmann

  89
  Citations

• Leaf architecture and direction of incident light influence mesophyll fluorescence profiles.

  Daniel M. Johnson;William K. Smith;Thomas C. Vogelmann;Craig R. Brodersen

  82
  Citations

• Photoacoustic analysis indicates that chloroplast movement does not alter liquid-phase CO2 diffusion in leaves of Alocasia brisbanensis.

  Holly L. Gorton;Stephen K. Herbert;Thomas C. Vogelmann

  75
  Citations

• Glutamine Transfer from Xylem to Phloem and Translocation to Developing Leaves of Populus deltoides.

  Richard E. Dickson;Thomas C. Vogelmann;Philip R. Larson

  73
  Citations

• Characterization of Plant Epidermal Lens Effects by a Surface Replica Technique

  Greg Martin;David A. Myres;Thomas C. Vogelmann

  65
  Citations

• Optical effects of abaxial anthocyanin on absorption of red wavelengths by understorey species: revisiting the back-scatter hypothesis

  Nicole M. Hughes;Thomas C. Vogelmann;William K. Smith

  64
  Citations

• Surface gas-exchange processes of snow algae

  William E. Williams;Holly L. Gorton;Thomas C. Vogelmann

  61
  Citations

• Measurement of the Optical Properties of Leaves Under Diffuse Light

  Holly L. Gorton;Craig R. Brodersen;William E. Williams;Thomas C. Vogelmann

  46
  Citations

• Leaf: Light Capture in the Photosynthetic Organ

  Thomas C. Vogelmann;Holly L. Gorton

  36
  Citations

• Penetration of UV-A, UV-B, blue, and red light into leaf tissues of pecan measured by a fiber optic microprobe system

  Yadong Qi;Shuju Bai;Thomas C Vogelmann;Gordon M. Heisler

  28
  Citations

• The influence of epidermal windows on the light environment within the leaves of six succulents

  Kathryn J. Egbert;Craig E. Martin;Thomas C. Vogelmann

  27
  Citations