i did research on these a while back In general diatoms can be used to trace a variety of environmental phenomena, from changes in sea level, (whether brought about by climate change or tectonic activity), breaches of coastal barriers, (as a result of storms and/or sea-level rise), to the evaporation of lakes, (increasing salinity determining diatom assemblages). Below is an outline of their most prevalent uses. # Marine
Some species are restricted to a very narrow range of salinities and are know as stenohaline species, others have no such restrictions and are known as cosmopolitan species. As a result, this causes zonation, which is particularly evident in estuaries, where a spectrum (and a gradient for such a spectrum) can be calculated from coastal to offshore species. This has applications in determining palaeo-fluvial environments, and sediment focusing. # Freshwater.
Some freshwater species will tolerate a little salt, and are known as halophilic, occurring in coastal lakes, or where the groundwater is rich in salts. However most freshwater species are stenohaline and will not tolerate salt. There are several ways of deducing palaeotrophic status using diatoms: # Total Diatom Count - This is relatively simple, the more diatoms there are in your sample, the more productive a given body of water is. # Centric:Pennate Ratio - The more centrics there are in your sample, the more productive the environment is. (With the exception of a species called Cyclotella.) # Indicator Species - Certain species are typical of certain conditions, for example Stephanodiscus is typical of eutrophic (abundant nutrient) conditions, and Tabellaria of oligotrophic (very low nutrient) conditions. # Planktonic:Non-planktonic Ratio - Planktonic forms are more common in eutrophic lakes. # Diversity Indicators - A low overall diversity amongst diatoms indicates stressful conditions, for example extreme trophic status (hyper-oligotrophic or hyper-eutrophic). However this could also indicate a source of pollution etc. This perhaps the most important and most widely used application of diatom studies. Diatoms are highly sensitive to pH and can illustrate differences of as little as 0.1 pH units. To accomplish this species are classified as either: * Acidobiontic (Acid Living) pH < 7 * Acidophilous (Acid Preferring) pH ≤ 7 * Circumneutral pH = 7 * Alkaliphilous (Alkali Preferring) pH ≥ 7 * Alkalibiontic(Alkali Living) pH > 7 This method is highly dependant upon knowing the pH preference for all of the diatoms present, as the percentage of each of the above groups is measured and the ratios used to calculate a log index of the given population. With the use of some complicated mathematics this, in turn, can then be used to determine the palaeo-pH. Obviously, it is not always possible to know the preference of all of the species in your sample, and therefore this method can not always be applied. Diatoms are not very useful in determining changes in palaeo-temperature, due to the fact that the large majority of species will tolerate very wide ranges of temperature, typically from 0oC to 20oC. That said, different assemblages arepresent when comparing warm and cold waters. However, this is almost certainly due to other overriding factors such as: incident solar radiation, water chemistry, pH, and nutrient availability.
Actually the fine silica-containing cell walls of the dead single-celled algae Diatoms - found in Diatomacious earth, are used as a fine abrasive in polishes and even tooth paste. Also - trinitroglycerine soaked diatomaceous earth Kiselguhr is dynamite or at least was when first developed.
They are used in road paint. They outer glass-like shell reflects light so you can see the road lines in the dark. They are also used in toothpaste, but I don't know why.
One unusual use is that the shells of these creatures for what is called diatomaceous earth, which is highly nutritional for plants.
Diatoms are believed to be good for any kind of gardening.
They arent
Diatoms are single celled algae.
Diatoms are usually microscopic, but they can be 2mm in length. Marine diatoms are a yellowish brown colour.
i know some types of plankton eat diatoms and so do sponges,jellyfish and crabs and ther is still many more things that eat diatoms
at the end of winter . where might you look for diatoms
Diatoms can be found in oceans, freshwater, and also in soils on damp surfaces
pennate diatoms
Diatoms are single celled algae.
diatoms are a microalgae group
Diatoms are algae, diatoms are protists. Diatoms are placed in the division Bacilliariophyta, which is distinguished by the presence of an inorganic cell wall composed of hydrated silica.
Diatoms are usually microscopic, but they can be 2mm in length. Marine diatoms are a yellowish brown colour.
diatoms are producers, not decomposers. they are photosynthetic organisms
class chrysophyta
Diatoms account for 23% of the primary productivity of the world, that's what they do!
Most Diatoms are Photosynthetic but some have evolved to be heterotrophic
Diatoms are microscopic. Diatoms range in size from about 2 microns to about 500 microns or equal to the width of a human hair.
Yes they are; diatoms are the main source of oxygen in the universe.
i know some types of plankton eat diatoms and so do sponges,jellyfish and crabs and ther is still many more things that eat diatoms