Brose, U. (2010). Body-mass constraints on foraging behaviour determine population and food-web dynamics . Functional Ecol ogy, 24 ( 1 ), 28–34. h ttps://doi.org/ 10.1111/j.1365-2435.2009.01618.x
The researcher aimed at assessing the characteristics of the habitat and foods of the largemouth bass. The data about the kind of food for the fish was obtained through three different ways dissection, gastric lavage, or the tube method. The research discovered that the largemouth bass fish is a predator that feeds on fellow fish and other aquatic creatures. According to the author, the size of the predator determines the quantity of food it takes; thus, the amount of food intake in proportion to body weight. From the findings, the type of food chosen depends on the age of the creature.
Delegate your assignment to our experts and they will do the rest.
The information collected is credible and reliable as it gives a detailed study of the habitats and food that are suitable for the largemouth bass. Although studies have shown that Bass can adapt to any environment, the information obtained gave the appropriate water conditions and specific foods that it feeds on. These findings will prove helpful for those planning to breed the largemouth bass by establishing the environment and food required by them. The author is a distinguished scholar and member of faculty at the Friedrich Schiller University Jena in Germany.
Lauder, G. V., & Tytell, E. (2005). Hydrodynamics of undulatory propulsion. Fish Physiology, 23 , 425-468. https://doi.org/10.1016/S1546-5098(05)23011-X
In this article, the writer explains the anatomy of the largemouth bass, looking into details the fin, which is an essential organ of the animal. The study was based on hydrodynamic data collected undulatory movement in fish. The research discovered that the fins are positioned in a way that they could facilitate and ease the locomotion of the fish. The fins enabled the fish to move at speeds of between 0.7 and 2.4 Ls À1 during stable swimming. It also came to my understanding that the systematical alignment of the fins to the fish's body determines the posture and the movement; thus, they play a significant role in balancing of the fish's body during swimming.
For some time now, research on the forward motion of the largemouth bass was mainly on the assumption of hydrodynamic function from kinematics and hypothetical models. However, this information obtained from the peer-reviewed journal will be beneficial as it gives details of the structural makeup of the largemouth bass. The source is credible as it provides reliable information on the significance of fin in locomotion of the Largemouth Bass. The authors are distinguished scholars based at Harvard University and Tufts University, respectively.
Rice, J. A., Breck, J. E., Bartell, S. M., & Kitchell, J. F. (1983). Evaluating the constraints of temperature, activity and consumption on growth of largemouth bass. Environmental Biology of Fishes, 9 (3-4), 263-275. https://doi.org/10.1007/BF00692375
The objective of the study was to establish the life cycle, reproductive cycle, and the size of adult largemouth bass. According to the research, eggs of Largemouth bass take a maximum of 6 days to hatch with the larvae taking up to a month to mature. Additionally, the study showed that male Largemouth bass matures quickly compared to the Female ones. According to the research, males attain sexual maturity three to four months after hatching while the female takes up to four to five months. The study also took to ascertain the reproductive cycle with 20 adult largemouth bass ten male and ten female reproductive cycles observed for one year.
The findings of this research are vital as it gives knowledge on the appropriate way of promoting reproduction which will eventually lead to the sustainment of the largemouth bass population. Information was obtained from a peer-reviewed journal and based on an assessment of the development and the concentration of plasma in several sex steroids and vitellogenin (VTG). The journal was authored by Rice and his colleagues and published by The American Fisheries Society. The information is reliable as it gives adequate information about the growth cycle of the Largemouth Bass. The authors also add credibility to the research as they are qualified professionals with both of them working at the Laboratory of Limnology, University of Wisconsin-Madison.
References
Brose, U. (2010). Body-mass constraints on foraging behaviour determine population and food-web dynamics . Functional Ecol ogy, 24 ( 1 ), 28–34. h ttps://doi.org/ 10.1111/j.1365-2435.2009.01618.x
Lauder, G. V., & Tytell, E. (2005). Hydrodynamics of undulatory propulsion. Fish Physiology, 23 , 425-468. https://doi.org/10.1016/S1546-5098(05)23011-X
Rice, J. A., Breck, J. E., Bartell, S. M., & Kitchell, J. F. (1983). Evaluating the constraints of temperature, activity and consumption on growth of largemouth bass. Environmental Biology of Fishes, 9 (3-4), 263-275. https://doi.org/10.1007/BF00692375
