0:16
Well, after seeing in the previous chapter, the corresponding section
to terrigenous segmentation and littoral processes.
Today we'll see the section that corresponds to what we call holomarine sediments.
That is, those that occur in the sea,
from primary education to sedimentation.
Within this section we will see the two types of sediments
holomarines, biogenics and hydrogen.
And, from here, we will talk about what productivity is
marine and the preservation of organic matter in the sediment.
To conclude what we saw in other chapters
about the carbon cycle.
And finally, to conclude the chapter,
some aspects of deposit resources of interest.
We started with the holomarine sediments, which, as I said,
are those that form you from the
terrigenous contributions of nutrients, elements in solution, etc.
are formed directly in fully marine conditions.
A very spectacular example here of the formation of calcareous oolites
in areas of tropical platforms, in this case, corresponds to the Bahamas,
in which this precipitation is exclusively mineral.
It forms some spectacular, like this satellite image we can appreciate,
very transparent waters saturated.
They help or facilitate the precipitation of aragonitic carbonate.
Giving from the same marine dynamics,
as these aspects of impressive structures.
We will see then, within the elements of first category,
which we call biogenic sediments.
That is to say, those that are formed from the organisms,
both the skeletal parts mainly, as the soft tissues
of which we will speak later as organic matter.
These form either individual organisms, or colonizing organisms, like
for example the reef platforms, as the example we see here.
also satellite image of the Great Barrier of Australia,
of spectacular dimensions.
In which these organisms produce you lithic formations,
rocky habitats with highly productive habitats.
From a huge proliferation of species, etc.
But that not only are the builders or bioconstructors.
These organisms may also be at the individual, ventonic,
etc., such as the typical background colonization of the Mäerl type.
In those that dominate calcareous algae and other organisms, even also corals,
etc., giving some aspects of organic proliferation very interesting.
Evidently these communities give rise, in
depth, mainly continental shelf,
to a carbonate sedimentation that reaches 100%.
that is to say, the whole sediment is practically of organic origin, organogenic.
4:56
This is a graph in which we can see the contribution of carbonate on the one hand,
horizontally and precipitation in depth.
Up to a few, at 3000 and a few meters deep this
precipitated carbonate, may begin to be dissolved.
And finally it reaches a depth at which it is totally dissolved.
Practically in the background this carbonate does not appear any more,
but rather what appears are dissolution product type materials,
clays, called red clays, etc.
That is, it produces a diversity of funds depending on both the depth
as of the climatology,
to which the production of surface carbonate is found.
And this gives rise to the distinct
large-scale distribution of
carbonate or mainly silica as we have seen in previous organisms.
These differences we saw you the day before, in this cartography of
the different types of deep sedimentation.
And in which we can, we differentiate already the different proportion
participation of silica and carbonate elements in
the seabed, in the great depths.
6:33
We then pass, seeing the elements of organogenic origin
organic to hydrogen-type formations.
That is, those materials that are formed directly by
chemical processes of precipitation, concentration, etc.,
and which are, so to speak, the most historically known.
Among them are those that are produced by evaporation of sea water,
concentration and fractional precipitation of
different salts produced by this evaporation of the water.
The most typical example, more typical, is the
in salines for the production of common salt and other salts.
Here is an example of the delta Salinas
of the Ebro in which we see the different lagoons.
Obviously limited and managed.
To progressively concentrate the outflow of water and to obtain
the interesting end product being sodium chloride, the common salt.
Evidently, this evaporation produces
different materials progressively depending on the concentration,
what in geology we call the virtual evaporite series.
That at historical level we can contemplate in a real example of
what may or may not happen in the past.
In watersheds that are isolated from the open ocean
and that progressively precipitate different materials.
What would this evaporite series be?
For we would start with the formations of carbonates, gypsum,
anhydrite, gem salt, potassium-magnesium salts, etc.
This would be the virtual sequence that we find in the fossil record,
for example of the Mediterranean, about 6 million years ago,
during the period Messinian.
He was isolated from the Atlantic Ocean and the concentration of waters,
the salinity of the waters, increasing progressively,
produced this type of virtual sequence in repeated cycles.
This is an example of this type of sedimentation process.
9:13
can be found and exploited in some sites, for example, phosphates,
marine phosphors of marine origin and also of continental origin.
But basically, for example,
here we have an example of phosphorite nodules, extracted
of the northwest margin of the Iberian peninsula in Galicia.
And that can be exploited as it happens,
for example at continental level, in the areas of West Africa etc.
9:50
Let's move to the deep hydrogen deposits, that is,
so far we have talked about coastal or more or
less than the continental margin.
But we go to the deep ones in which the origin
chemical composition of the material forming the concentrations.
They originate directly in the
of the oceanic ridges of the
hot spots of volcanic islands, etc.
And they give way, you're directly in the volcanic building itself.
For example, in the fumaroles giving
place to oysters or to chimneys that can get to have a proportion,
a very important metal content.
12:30
already seen, these minerals, basically,
we see the phenomenon of production in the abyssal zones of the nodules,
here exemplified in this image.
Or the particular case of smokers, or the mineralizing chimneys in the
dorsal, or an example, a section of a polymetallic crust.
These examples, then, are those that can become a source of certain minerals.