At the very top level, there is broad agreement on the
phylogeny and hence classification of spiders, which is summarized in the
cladogram below. The three main
clades into which spiders are divided are shown in bold; , they are usually treated as one suborder,
Mesothelae, and two infraorders,
Mygalomorphae and
Araneomorphae, grouped into the suborder
Opisthothelae. The Mesothelae, with about 196 species in 8 genera , make up a very small proportion of the total of around 53,680 known species. Mygalomorphae species comprise around 7% of the total, the remaining 92% being in the Araneomorphae. }} The Araneomorphae are divided into two main groups: the
Haplogynae and the
Entelegynae. The Haplogynae make up about 10% of the total number of spider species, the Entelegynae about 83%. The phylogenetic relationships of the Haplogynae, Entelegynae and the two smaller groups
Hypochiloidea and
Austrochiloidea remain uncertain . Some analyses place both Hypochiloidea and Austrochiloidea outside Haplogynae; others place the Austrochiloidea between the Haplogynae and the Entelegynae; the Hypochiloidea have also been grouped with the Haplogynae. Earlier analyses regarded the Hypochiloidea as the sole representatives of a group called the Paleocribellatae, with all other araneomorphs placed in the Neocribellatae. The Haplogynae are a group of araneomorph spiders with simpler male and female reproductive anatomy than the Entelegynae. Like the mesotheles and mygalomorphs, females have only a single genital opening (
gonopore), used both for copulation and egg-laying; males have less complex
palpal bulbs than those of the Entelegynae. Although some studies based on both morphology and
DNA suggest that the Haplogynae form a
monophyletic group (i.e. they comprise all the descendants of a common ancestor), this hypothesis has been described as "weakly supported", with most of the distinguishing features of the group being inherited from ancestors shared with other groups of spiders, rather than being clearly indicative of a separate common origin (i.e. being
synapomorphies). One phylogenetic hypothesis based on molecular data shows the Haplogynae as a
paraphyletic group leading to the Austrochilidae and Entelegynae. The Entelegynae have a more complex reproductive anatomy: females have two "copulatory pores" in addition to the single genital pore of other groups of spiders; males have complex palpal bulbs, matching the female genital structures (
epigynes). The monophyly of the group is well supported in both morphological and molecular studies. The internal phylogeny of the Entelegynae has been the subject of much research. Two groups within this clade contain the only spiders that make vertical orb webs: the
Deinopoidea are
cribellate – the adhesive properties of their webs are created by packets of thousands of extremely fine loops of dry silk; the
Araneoidea are ecribellate – the adhesive properties of their webs are created by fine droplets of "glue". In spite of these differences, the webs of the two groups are similar in their overall geometry. The evolutionary history of the Entelegynae is thus intimately connected with the evolutionary history of orb webs. One hypothesis is that there is a single clade, Orbiculariae, uniting the orb web makers, in whose ancestors orb webs evolved. A review in 2014 concluded that there is strong evidence that orb webs evolved only once, although only weak support for the monophyly of the Orbiculariae. One possible phylogeny is shown below; the type of web made is shown for each terminal node in order of the frequency of occurrence. }} If this is correct, the earliest members of the Entelegynae made webs defined by the substrate on which they were placed (e.g. the ground) rather than suspended orb webs. True orb webs evolved once, in the ancestors of the Orbiculariae, but were then modified or lost in some descendants. An alternative hypothesis, supported by some molecular phylogenetic studies, is that the Orbiculariae are
paraphyletic, with the phylogeny of the Entelegynae being as shown below. }} On this view, orb webs evolved earlier, being present in the early members of the Entelegynae, and were then lost in more groups, making web evolution more convoluted, with different kinds of web having evolved separately more than once. Future advances in technology, including comparative genomics studies, and whole-genome sampling should lead to "a clearer image of the evolutionary chronicle and the underlying diversity patterns that have resulted in one of the most extraordinary radiations of animals". ==Suborder Mesothelae==