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Water balance of an australian subtropical rainforest at altitude: The ecological and physiological significance of intercepted cloud and fog

A frequently wet canopy results in reduced transpiration rates and direct foliar absorption of moisture alleviates water deficits of the upper crown leaves and branches during the dry season, which may enable long-term survival at what could be considered to be a marginal rainforest site.
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Rehabilitating degraded forest land in central Vietnam with mixed native species plantings

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Equine artificial insemination.

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The dynamics of photosynthetic acclimation to changes in light quanlity and quality in three Australian rainforest tree species

It is likely that structural characteristics of the leaves, imposed at the time of leaf expansion, are largely responsible for the limitations in photosynthetic acclimation to increases in irradiance.
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Focusing of light by leaf epidermal cells

Focusing was observed when leaves were irradiated with collimated light but not with diffuse light, and focal lengths were relatively independent of wavelength within the visible region of the spectrum and there were only slight differences between focusing of blue vs red light.
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Foliar uptake of water by wet leaves of Sloanea woollsii, an Australian subtropical rainforest tree

It is suggested that the presence of leaf surface water during rainless periods when leaf Psi is low may be important for the survival of S. woollsii.
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Reflexion and absorption of solar radiation by flowering canopies of oil-seed rape (Brassica napus L.)

It appears that whilst increased flower density in a canopy might be expected to contribute to increased seed yield, increased reflectivity by petals may have a negative effect on yield.
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Joint front range climate change vulnerability study

Seasonal variation in the red/far-red ratio and photon flux density in an Australian sub-tropical rainforest

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SHADE FACTORS OF A RANGE OF SHADECLOTH MATERIALS

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