HOW THE ENVIRONMENT AFFECTS NATURAL SELECTION
The environment makes no conscious effort to select traits of an animal or plant beneficial to itself or the organisms resident in its habitats. If the location is in a suitable part of the range the animal occupies, it can contribute to survival and reproduction of the animal, especially of genetic variants having the genetic features best adapted to the environment. An animal may select the environment, although it may not be a conscious act. Foraging to new areas is less likely to occur when food and housing are abundant so a search does not take the organism to new areas.
Some examples of how the environment passively results in natural selection of animal features you are already familiar with-
the streamlined shape of fish (and birds), tapered at each end so resistance to movement through water (air) is minimized. The obvious exceptions, as in baleen whales, occur when feeding or some other benefit is more important in their lives.
coloration blending with the visual background. Again, exceptions occur when attracting a mate or warning predators of your toxic properties is more beneficial to survival.
fur or feathers aiding temperature regulation at the same time providing physical protection such as abrasion resistance, flotation, and a mechanism for seasonal color change.
appendage modification improving function for climbing (claws), digging, feeding, and locomotion to name a few.
THE LUNG AND BONY SKELETON CONNECTION
A less familiar example, unless you have a background in evolution and marine biology, is the difference between the cartilaginous and modern bony fishes and the role of air breathing fish in the evolution of bony skeletons. Survival of fish in anoxic ponds or ones that temporarily dried up, selected fish having more mouth surface able to extract oxygen from water or air. Ultimately, a pocket becoming the lung of lung fishes, then of amphibians and eventually reptiles, birds, and mammals in one line and from the fishes the early lung was adapted to the air bladder/swim bladder enabling evolution of the modern bony fishes.
It is interesting that the bony fish in the ocean had their origin in fresh water. Sharks and other cartilaginous fish do not have fresh water fish in their ancestry. The flotation provided modern fish by the air bladder offsetting the extra weight produced by bone, as compared to the weight of sea water, is partially provided by oil and/or fat stores for cartilaginous fish for excess of weight of bodies heavier than sea water. Some compensate by continuous swimming providing "lift" from wing-like pectoral fins or body shape.
SUBTERRANEAN AND ABYSSAL SIMILARITIES
The deep sea abyssal region and subterranean aquatic environments have both similarities and differences. The similarities usually include absence of light, stability of temperature, no green plants, low input of food, low predator density, cool temperatures.
In response to those features of the environment there is no selection eliminating loss of vision, pigmentation, and defensive weapons. Slender, elongated appendages provide some adaptation for loss of vision, They may also enable walking on soft, unstable sediment accumulations and sensory input for feeding.
SUBTERRANEAN AND ABYSSAL DIFFERENCES
The abyss
Soft sediments dominate abyssal environments and currents probably cause less erosion and relocation of sediment. Temperature away from thermal vents are slightly above the freezing temperature of water. Invertebrate species present are from major groups first found in sediments from older sediments that were in near shore environments (Jablonski et al., 1983; see references at end of the June 22, 2013 post of this blog).
This trend to migrate to deeper water and newer related groups evolve in shallower sea areas was not documented for abyssal species but seems to be a reasonable projection.
Temperate Zone Caves
Numerous instances of cave dwelling crustaceans were originally lumped into one or a few species with what were thought to be their closest relatives in other caves. Later research showed their closest relatives were in surface waters adjacent to the caves; the rapid adaptation to cave dwelling led to similar loss of pigmentation and vision of less value in showing their evolutionary origin in post-glacial times. This is one example of how rapidly evolution can occur to bring about the loss of characteristics of little use but essential to survival in a different environment.
EXTREME PRESSURE
https://evolutioninsights.blogspot.com/2013/06/evolution-in-deep-sea.html
notes the factors thought to be responsible for slow metabolism and increased longevity in abyssal animals. I speculate that the slight compression of water at great depths decreases molecular mobility and so called Brownian movement noted with oil immersion microscopic viewing of cells and related particles; this could be a major factor in the slow pace of life and evolution in the abyss. I have not searched the literature for related research for many years, One suggestion in an older article about pressure interference with cell activities was the variable rate of compression of organic compounds could stop or reverse the direction of action toward the product most greatly compressed. If so I would think alternative metabolic pathways might evolve, but oh so slowly under abyssal conditions.
It seems to me that it would be simple for a physicist or chemist with access to equipment with extreme pressure to compare the rate of diffusion from a grain of dye, or the rate of sedimentation of fine particles, or both to a range of pressures. ( see blog noted above for reference to Yayanos, Dietz, and Boxtel 1979 study of pressure effects on growth)
My nebulous account of factors enabling understanding of the pogonophoran story is, unfortunately, not easily told in a concise way. The scattered threads that lead to understanding of the story is perhaps inaccessible to many viewing one of the disconnected bits I provide. It took a lifetime for me to see the things I present. I hope others do it more easily and find the trip interesting. If you see what I am attempting to say, I encourage you to point it out to Wikipedia. You will need to include a few scientific journal references noted elsewhere in this blogsite to have any hope of others resisting the urge to expunge the entry as not being in sync with existing views. It is normally good, but preserving the status quo can be a major stumbling block to creativity.
Joseph Engemann Kalamazoo, Michigan March 4, 2019
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