CIRAD (Organization) / http://id.loc.gov/authorities/names/n87895838 : Développement durable de l'agriculture urbaine en Afrique francophone : enjeux, concepts et méthode / Ólanrewaju B. Smith [and others]
Biological mechanism that controls CIRCADIAN RHYTHM. Circadian clocks exist in the simplest form in cyanobacteria and as more complex systems in fungi, plants, and animals. In humans the system includes photoresponsive RETINAL GANGLION CELLS and the SUPRACHIASMATIC NUCLEUS that acts as the central oscillator
Biological mechanism that controls CIRCADIAN RHYTHM. Circadian clocks exist in the simplest form in cyanobacteria and as more complex systems in fungi, plants, and animals. In humans the system includes photoresponsive RETINAL GANGLION CELLS and the SUPRACHIASMATIC NUCLEUS that acts as the central oscillator
Biological mechanism that controls CIRCADIAN RHYTHM. Circadian clocks exist in the simplest form in cyanobacteria and as more complex systems in fungi, plants, and animals. In humans the system includes photoresponsive RETINAL GANGLION CELLS and the SUPRACHIASMATIC NUCLEUS that acts as the central oscillator
Circadian rhythms -- Therapeutic use : Chronotherapeutics for affective disorders : a clinician's manual for light and wake therapy / Anna Wirz-Justice, Francesco Benedetti, Michael Terman
Biological mechanism that controls CIRCADIAN RHYTHM. Circadian clocks exist in the simplest form in cyanobacteria and as more complex systems in fungi, plants, and animals. In humans the system includes photoresponsive RETINAL GANGLION CELLS and the SUPRACHIASMATIC NUCLEUS that acts as the central oscillator
Biological mechanism that controls CIRCADIAN RHYTHM. Circadian clocks exist in the simplest form in cyanobacteria and as more complex systems in fungi, plants, and animals. In humans the system includes photoresponsive RETINAL GANGLION CELLS and the SUPRACHIASMATIC NUCLEUS that acts as the central oscillator
Circle Alaska : Through their eyes : a community history of Eagle, Circle, and Central / Michael Koskey, Laurel Tyrrell, and Varpu Lotvonen
2018
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Circle (Alaska) -- History : Through their eyes : a community history of Eagle, Circle, and Central / Michael Koskey, Laurel Tyrrell, and Varpu Lotvonen
Here are entered works on inexplicable, flattened patterns in fields or crops. Works on patterns or variations in crop growth that are the result of buried archaeological sites or components of such sites are entered under Cropmarks