David E. Brest scite author profile

David E. Brest

5Publications

29Citation Statements Received

35Citation Statements Given

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Affiliations

California State University, Dominguez Hills, University of California, Los Angeles

Publications

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Rhythmic Leaf Movements in Biloxi Soybean and Their Relation to Flowering

1971

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The rhythmic leaf movement of Biloxi soybean (Glycine max) and its relationship to the rhythmic flowering response were studied. The movements of fully expanded trifoliate leaves were recorded with kymographs and time lapse photography in growth chambers. A comparison between the leaf movement rhythm and the rhythmic flowering response indicates that a high degree of similarity exists between the two rhythms. A definite relationship was shown to exist between the direction of the leaf movement and the photophil-photophobe phases of the rhythmic flowering response.Short light perturbations may affect flowering by interacting directly with the flowering process while not affecting the basic endogenous rhythm. Long light perturbations may affect flowering by phase shifting the basic endogenous rhythm. Thus, light perturbations appear to have a dual effect on the flowering response of Biloxi soybean. The hypothesis that both the flowering rhythm and the leaf movement rhythm are coupled to the same basic oscillator is supported by the similarity of the phase shifts induced in the two rhythms by identical light perturbations.

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The Participation of Two Rhythms in the Leaf Movements of Xanthium Plants Given Various Light-Dark Cycles

1974

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Xanthium Leaf Movements in Light and Dark

1969

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Physiological Response to Salinity by Four Salt Marsh Plants

Kuramoto¹,

Brest²

1979

Botanical Gazette

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Circadian Leaf Movements in Biloxi Soybeans

Brest¹,

Hoshizaki²,

Hamner³

1970

Plant Physiol.

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David E. Brest

Rhythmic Leaf Movements in Biloxi Soybean and Their Relation to Flowering

The Participation of Two Rhythms in the Leaf Movements of Xanthium Plants Given Various Light-Dark Cycles

Xanthium Leaf Movements in Light and Dark

Physiological Response to Salinity by Four Salt Marsh Plants

Circadian Leaf Movements in Biloxi Soybeans

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