Rapid thermal adaptation during field temperature variations in Drosophila melanogaster
Jesper Sorensen is an established research practitioner based in Denmark and he specializes in Bioscience at the University of Aarhus. Johannes Overgaard is also a professor at the University of Aarhus and is based in the Department of Bioscience. The two professors have conducted numerous researches on the topic (The Rapid Rate of Thermal Adaptation of Drosophila Melanogaster in Varying Temperatures) (Overgaard and Sørensen 159). What are the effects generated by varying field temperatures and thermal adaptation in Melanogasters? The article indicates various academic bases in the process of analyzing the research question. Various research practitioners have conducted individual research on the same topic and indicated individual findings. Consequently, Jesper and Overgaard conducted research on the same topic, and the results and conclusions of their research posted in the above article to facilitate broad information for readers. Overgaard and Jesper illustrated the results of their study and presented the connection and effect generated by the presence of temperature and thermal adaptation in Drosophila. The fly can also be classified amongst other flies that adapt to the thermal variations and temperature changes. Drosophila adapts to the variations of climatic changes. The availability of heat and cold does not affect the conditions of Drosophila. Various research practitioners have conducted individual research on the same topic and indicated individual findings. Consequently, Jesper and Overgaard conducted research on the same topic and thus the results and conclusion of their research (Rowan 742).
Adaptation of Drosophila to temperature extremes: bringing together quantitative and molecular approaches
Jesper and Volker are professors in the diversity of Aarhus and are based in the department of Bioscience. On the other hand, Professor Hoffmann is based at the University of Melbourne in the Department of Zoology and Genetics. The three professors conducted research on the topic in question and produced different views in their findings (Hoffmann, Sørensen, and Loeschcke 176). Using the molecular and Quantitative approaches, illustrate the effects of temperature on Drosophila. The article presents an argument in providing detailed findings and a conclusion on the research question. The simplicity and presentation of the findings give a clear indication of the depth of research conducted and give readers an overview of the topic. The professors aimed at presenting preferable and logical points in the findings of their research. On the other hand, clarity and individual research to prove the various findings of other research practitioners is a key aspect in the presentation of the research. The article indicates various academic bases in the process of analyzing the research question. The presence of temperature and thermal adaptation creates minimal effects in the Drosophila. The fly can also be classified amongst other flies that adapt to the thermal variations and temperature changes. The article indicates various academic bases in the process of analyzing how temperature and thermal variations take effect on the fly. Clear and significant points have been developed by the researchers of the article in the provision of answers to the research question (Rowan 742).
Thermal adaptation: a theoretical and empirical synthesis
Michael Angilletta is a professor and scholar by profession. He largely conducts research on the biological adaptation of different species to different environmental changes. In the above book, he gives different clarifications on the different adaptation procedures realized by different species with changes in thermal variations (Angilletta 147). What are the adaptation effects of thermal variations ton insects and other organisms? Michael James indicates in his book various academic bases in the process of analyzing the research question. Clear and significant points have been developed by the researchers of the article in the provision of answers to the research question. The aim of the research is to indicate the different empirical theories on the adaptation of different organisms to the changes in temperature and thermal variations. The article indicates various academic bases in the process of analyzing the research question. The professors aimed at presenting preferable and logical points in the findings of their research. Michael James illustrated the results of his study and presented the connection and effect generated by the presence of temperature and thermal adaptation in different organisms. The Drosophila can also be classified amongst other organisms that adapt to the thermal variations and temperature changes. The research conducted by Michael James illustrates that different organisms adapt to thermal variations and temperatures differently (Rowan 742). Clear and significant points have been developed by the researchers of the article in the provision of answers to the research question.
References
Angilletta, Michael James. Thermal adaptation: a theoretical and empirical synthesis. Oxford University Press, 2009. Print
Hoffmann, Ary A, Jesper Sørensen and Volker Loeschcke. “Adaptation of Drosophila to temperature extremes: bringing together quantitative and molecular approaches.” Journal of Thermal Biology 28.3 (2003): 175-216. Print
Overgaard, Johannes and Jesper Sørensen. “Rapid thermal adaptation during field temperature variations in Drosophila melanogaster.” Cryobiology 56.2 (2008): 159-162. Print
Rowan, Rob. “Coral bleaching: thermal adaptation in reef coral symbionts.” Nature 430.7001 (2004): 742-742.