Laminar and non-geometric microliths Laminar microliths date from at least the
Gravettian culture or possibly the start of the
Upper Paleolithic era, and they are found all through the
Mesolithic and
Neolithic eras.
"Noailles" burins and micro-gravettes indicate that the production of microliths had already started in the
Gravettian culture. This style of flint working flourished during the
Magdalenian period and persisted in numerous Epipaleolithic traditions all around the Mediterranean basin. These microliths are slightly larger than the geometric microliths that followed and were made from the flakes of flint obtained
ad hoc from a small nucleus or from a depleted nucleus of flint. They were produced either by percussion or by the application of a variable pressure (although pressure is the best option, this method of producing microliths is complicated and was not the most commonly used technique).
Truncated blade There are three basic types of laminar microlith. The truncated blade type can be divided into a number of sub-types depending on the position of the truncation (for example, oblique, square or double) and according to its form, for example, concave or convex. "Raclette scrapers" are notable for their particular form, being blades or flakes whose edges have been sharply retouched until they are semicircular or even shapeless. Raclettes are indefinite cultural indicators, as they appear from the Upper Paleolithic through to the Neolithic. Image:Hojita de Fresno de la Ribera.png|Flint blade Image:Microlame 0.225.4.jpg|Truncated bladelet Image:Microlame 0.225.1.jpg|Backed edge bladelet Image:Flechette Gavaudun 231-3 (3).jpg|Dufour bladelet
Backed edge blades Backed edge blades have one of the edges, generally a side one, rounded or chamfered by abrupt retouching. There are fewer types of these blades, and may be divided into those where the entire edge is rounded and those where only a part is rounded, or even straight. They are fundamental in the blade-forming processes, and from them, innumerable other types were developed. Dufour bladelets are up to three centimeters in length, finely shaped with a curved profile whose retouches are semi-abrupt and which characterize a particular phase of the
Aurignacian period. Solutrean backed edge blades display pronounced and abrupt retouching, so that they are long and narrow and, although rare, characterize certain phases of the Solutrean period. Ouchtata bladelets are similar to the others, except that the retouched back is not uniform but irregular; this type of microlith characterizes certain periods of the
Epipaleolithic Saharans. The
Ibero-Maurusian and the Montbani bladelet, with a partial and irregular lateral retouching, is characteristic of the Italian
Tardenoisian.
Micro points These are very sharp bladelets formed by abrupt retouching. There are a huge number of regional varieties of these microliths, nearly all of which are very hard to distinguish (especially those from the western area) without knowing the archaeological context in which they appear. The following is a small selection. Omitted are the foliaceous tips (also called leafed tips), which are characterized by a covering retouch and which constitute a group apart. • The
Châtelperrón point is not a true microlith, although it is close to the required dimensions. Its antiquity and its short, curved blade edge make it the antecedent of many laminar microliths. • The
Micro-gravette or
Gravette micro point is a microlith version of the
Gravette point and is a narrow bladelet with an abrupt retouch, which gives it a characteristically sharp edge when compared to other types. • The
Azilian point links the
Magdalenian microlith points with those from the western
Epipaleolithic. They can be identified by a rough and invasive retouching. • The
Ahrensburgian point is also a
peripheral paleolithic or western Epipaleolithic piece, but with a more specific morphology, as it is formed on a blade (not on a bladelet), is obliquely truncated and has a small tongue that possibly served as a haft on a spear point. The next group contains a number of points from the
Middle East characterized as cultural markers. • The
Emireh point from the
Upper Paleolithic is almost the same as one found in Châtelperrón, which is likely to be contemporary, although they are slightly shorter and also appear to be fashioned from a blade and not a bladelet. • The
El-Wad point is from the end of the Upper Paleolithic from the same area, made from a very long, thin bladelet. • The
El-Khiam point has been identified by the Spanish archeologist González Echegaray in
Protoneolithic sites in
Jordan. They are little known but easy to identify by two basal notches, doubtless used as a haft. However, they are distinct from the geometric microliths because of the strokes used in the manufacture of geometric microliths, which mainly involved the
microburin technique.
Geometric microliths Geometric microliths are a clearly defined type of stone tool, at least in their basic forms. They can be divided into trapezoid, triangular and lunate (half-moon) forms, although there are many subdivisions of each of these types. A
microburin is included among the illustrations below because, although it is not a geometrical microlith (or even a tool), it is now seen as a characteristic waste product from the manufacture of these geometric microliths: Image:Microburin.png|Microburin Image:Microlito Trapecio.png|Trapeze Image:Microlito Triángulo.png|Triangle Image:Microlito Segmento de-círculo.png|Lunate Geometric microliths, though rare, are present as trapezoids in Northwest Africa in the
Iberomaurusian. They later appear in Europe in the
Magdalenian initially as elongated triangles and later as trapezoids (although the microburin technique is seen from the
Perigordian), they are mostly seen during the
Epipaleolithic and the
Neolithic. They remained in existence even into the
Copper Age and
Bronze Age, competing with "leafed" and then metallic arrowheads.
Microburin technique All the currently known geometric microliths share the same fundamental characteristics – only their shapes vary. They were all made from blades or from microblades (nearly always of flint), using the
microburin technique (which implies that it is not possible to conserve the remains of the heel or the conchoidal flakes from the blank). The pieces were then finished by a percussive retouching of the edges (generally leaving one side with the natural edge of the blank), giving the piece its definitive polygonal form. For example, in order to make a triangle, two adjacent notches were retouched, leaving free the third edge or
base (using the terminology of Fortea). They generally have one long axis and concave or convex edges, and it is possible for them to have a gibbosity (hump) or indentations. Triangular microliths may be
isosceles,
scalene or
equilateral. In the case of trapezoid geometric microliths, on the other hand, the notches are not retouched, leaving a portion of the natural edge between them. Trapezoids can be further subdivided into symmetrical, asymmetrical and those with concave edges.
Lunate microliths have the least diversity of all and may be either semicircular or
segmental. Archeological findings and the analysis of wear marks, or
use-wear analysis, has shown that, predictably, the tips of
spears,
harpoons and other light projectiles of varying size received the most wear. Microliths were also used from the
Neolithic on
arrows, although a decline in this use coincided with the appearance of bifacial or "leafed" arrowheads that became widespread in the
Chalcolithic period, or Copper Age (that is, stone arrowheads were increasingly made by a different technique during this later period). ==Weapons and tools==