Physics and Fish Bioenergetics Essays -- physics fish bioenergetics

Welcome to the world of lean physics. galore(postnominal) of us understand basic get wind for appearance and can fall into place consistent conclusions about where the best place to throw a seek pipeline is. But when we dont think much push than that we are missing out on most very elicit enlarge of fish behavior. We can never fully understand wherefore we assure some fish in one location and some fish in sepa straddle locations until we consider the concept of fish bioenergetics. Ultimately, fish behavior is a product of bioenergetics. First, we lead take a tone at basic fish bioenergetics, understanding the underlying quantitative principles. Then, we leave behind look at some examples of how physical forces, thermodynamics, and light characteristics are specifically link to fish bioenergetics. Most of these models and ideas are made under the premiss that there is no predation or competition, which are additional factors that will yield behavior. l ook for bioenergetics includes components of physical forces, thermodynamics, and light characteristics, and follows energy laws and theories describing any(prenominal) other unlikeable system. What it all boils down to is the net rate of energy intake. If this rate is arrogant a fish will grow and if it is negative whence a fish will begin to undergo the stresses of losing biomass. Fish bioenergetics is rightfully a matter of efficiency. Potential profit for a fish at any given position in a stream is merely the sum total of energy coming into its system as prey damaging the represent of staying at that position. This simplified model can be desribed by P = D - Swhere P is potential profit (calories/hour), D is for sale drifting invertebrate energy (calories/hr), and S is swimming embody (calories per hour) (Fausch 1984). For example, th... ...monids at different scales. Ecology 79 281-294.Hughes, N.F., 1999. Fish ecology course, aim of Fisheries and nautical Scien ces, University of Alaska Fairbanks.Mundie, J.H., 1969. Ecological implications of the diet of young coho salmon in streams. Pages 135-152 in T.G. Northcote, editor. Symposium on salmon and trout in streams, University of British Columbia, Vancouver.Stephens, D.W., and J.R. Krebs, 1986. Foraging theory. Princeton University Press, reinvigorated Jersey.Vogel, J.L., D.A. Beauchamp, 1999. set up of light, prey size, and turbidity on reaction distances of lake trout (Salvelinus namaycush) to salmonid prey. Canadian journal of Fisheries and aquatic Sciences 56 1293-1297.Wankowski, J.W.J., 1979. Morphological limitations, prey size selectivity, and growth resolution of juvenile Atlantic salmon (Salmo salar L.). Journal of Fish Biology. Physics and Fish Bioenergetics Essays -- physics fish bioenergetics Welcome to the world of fish physics. Many of us understand basic fish behavior and can reach logical conclusions about where the best place to throw a fishing line i s. But when we dont think much further than that we are missing out on some very interesting details of fish behavior. We can never fully understand why we find some fish in one location and some fish in other locations until we consider the concept of fish bioenergetics. Ultimately, fish behavior is a product of bioenergetics. First, we will take a look at basic fish bioenergetics, understanding the underlying quantitative principles. Then, we will look at some examples of how physical forces, thermodynamics, and light characteristics are specifically related to fish bioenergetics. Most of these models and ideas are made under the assumption that there is no predation or competition, which are additional factors that will influence behavior. Fish bioenergetics includes components of physical forces, thermodynamics, and light characteristics, and follows energy laws and theories describing any other closed system. What it all boils down to is the net rate of energy intake. If th is rate is positive a fish will grow and if it is negative then a fish will begin to undergo the stresses of losing biomass. Fish bioenergetics is really a matter of efficiency. Potential profit for a fish at any given position in a stream is simply the amount of energy coming into its system as prey minus the cost of staying at that position. This simplified model can be desribed by P = D - Swhere P is potential profit (calories/hour), D is available drifting invertebrate energy (calories/hr), and S is swimming cost (calories per hour) (Fausch 1984). For example, th... ...monids at different scales. Ecology 79 281-294.Hughes, N.F., 1999. Fish ecology course, School of Fisheries and Ocean Sciences, University of Alaska Fairbanks.Mundie, J.H., 1969. Ecological implications of the diet of juvenile coho salmon in streams. Pages 135-152 in T.G. Northcote, editor. Symposium on salmon and trout in streams, University of British Columbia, Vancouver.Stephens, D.W., and J.R. Krebs, 1986. Foraging theory. Princeton University Press, New Jersey.Vogel, J.L., D.A. Beauchamp, 1999. Effects of light, prey size, and turbidity on reaction distances of lake trout (Salvelinus namaycush) to salmonid prey. Canadian Journal of Fisheries and Aquatic Sciences 56 1293-1297.Wankowski, J.W.J., 1979. Morphological limitations, prey size selectivity, and growth response of juvenile Atlantic salmon (Salmo salar L.). Journal of Fish Biology.