Warren W. Burggren mainly investigates Internal medicine, Endocrinology, Anatomy, Respiratory system and Respiration. His Endocrinology study often links to related topics such as Respiratory Physiological Phenomena. His Anatomy research includes themes of Hypoxia, Ventricle, Cardiology, Oxygen transport and Systole.
His Respiratory system study combines topics from a wide range of disciplines, such as Ecology, Carbon dioxide, Partial pressure and Gill. His work deals with themes such as Biophysics and Anesthesia, which intersect with Respiration. His Hypoxia research is multidisciplinary, incorporating perspectives in Embryo, Embryogenesis, Larva and Yolk.
The scientist’s investigation covers issues in Internal medicine, Endocrinology, Anatomy, Heart rate and Ecology. He interconnects Embryo and Cardiology in the investigation of issues within Internal medicine. His studies in Anatomy integrate themes in fields like Ventricle and Gill.
His Heart rate study combines topics in areas such as Hatchling, Cardiac output, Physiology and Circadian rhythm. Warren W. Burggren works mostly in the field of Ecology, limiting it down to concerns involving Zoology and, occasionally, Larva. The study incorporates disciplines such as Breathing and Respiration in addition to Respiratory system.
His primary areas of investigation include Zoology, Embryo, Cardiac output, Animal science and Ecology. The concepts of his Zoology study are interwoven with issues in Hypoxia, Phenotype, Larva, Betta splendens and Gill. His Embryo research is multidisciplinary, incorporating elements of Environmental chemistry, Endocrinology and Internal medicine.
Warren W. Burggren works mostly in the field of Cardiac output, limiting it down to topics relating to Stroke volume and, in certain cases, Cardiac function curve, Anatomy, Homeostasis and Neuroscience. His Animal science study integrates concerns from other disciplines, such as Mahi-mahi, Pelagic zone, Incubation and Quail. His Ecology research includes elements of Genetics and Melanogaster.
Warren W. Burggren focuses on Ecology, Zoology, Developmental plasticity, Animal science and Heart rate. The Ecology study combines topics in areas such as Genetics, Epigenetics in insects and DNA methylation. His Zoology research incorporates elements of Betta splendens, Stressor and Zebrafish, Danio.
Warren W. Burggren studies Stroke volume which is a part of Heart rate. Warren W. Burggren usually deals with Stroke volume and limits it to topics linked to Cardiac function curve and Larva. His biological study spans a wide range of topics, including Biological system and Anatomy.
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Environmental physiology of the amphibians
Richard Wassersug;M. E. Feder;W. W. Burggren.
Biology of the Land Crabs
Warren W. Burggren;Brian R. McMahon.
Disruption of Hemoglobin Oxygen Transport Does Not Impact Oxygen-Dependent Physiological Processes in Developing Embryos of Zebra Fish (Danio rerio)
Bernd Pelster;Warren W. Burggren.
Circulation Research (1996)
Cutaneous Gas Exchange in Vertebrates: Design, Patterns, Control and Implications
Martin E. Feder;Warren W. Burggren.
Biological Reviews (1985)
Epigenetics and transgenerational transfer: a physiological perspective.
Dao H. Ho;Warren W. Burggren.
The Journal of Experimental Biology (2010)
Cardiomyopathy in zebrafish due to mutation in an alternatively spliced exon of titin
Xiaolei Xu;Steffen E. Meiler;Tao P. Zhong;Manzoor Mohideen.
Nature Genetics (2002)
O2 consumption and heart rate in developing zebrafish (Danio rerio): influence of temperature and ambient O2
W. R. Barrionuevo;W. W. Burggren.
American Journal of Physiology-regulatory Integrative and Comparative Physiology (1999)
The Evolution of Air Breathing in Vertebrates
David J. Randall;Warren W. Burggren;Anthony P. Farrell;M. Stephen Haswell.
Chronic hypoxia alters the physiological and morphological trajectories of developing chicken embryos.
Edward M Dzialowski;Daniela von Plettenberg;Nourhan A Elmonoufy;Warren W Burggren.
Comparative Biochemistry and Physiology A-molecular & Integrative Physiology (2002)
Development of physiological regulatory systems: altering the timing of crucial events.
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