Complete

Trombidiformes

Trombidiform mites

Heather Proctor
Click on an image to view larger version & data in a new window
Click on an image to view larger version & data in a new window
taxon links [up-->]Parasitengona [down<--]Acariformes Interpreting the tree
close box

This tree diagram shows the relationships between several groups of organisms.

The root of the current tree connects the organisms featured in this tree to their containing group and the rest of the Tree of Life. The basal branching point in the tree represents the ancestor of the other groups in the tree. This ancestor diversified over time into several descendent subgroups, which are represented as internal nodes and terminal taxa to the right.

example of a tree diagram

You can click on the root to travel down the Tree of Life all the way to the root of all Life, and you can click on the names of descendent subgroups to travel up the Tree of Life all the way to individual species.

For more information on ToL tree formatting, please see Interpreting the Tree or Classification. To learn more about phylogenetic trees, please visit our Phylogenetic Biology pages.

close box
from Lindquist 1996
Containing group: Acariformes

Introduction

The Trombidiformes is a huge and diverse assemblage of mites, characterized more by the lack of characters found in the other major group of acariform mites (Sarcoptiformes) than by many synapomorphies of their own (Lindquist 1996). It includes some medically important mites (chiggers, scrub itch mites) and many agriculturally important ones. Among the latter are spider mites (Tetranychidae) and gall mites (Eriophyidae). With the exclusion of the Sphaerolichida, the Trombidiformes is also known as the Prostigmata because the openings to the tracheal system are towards the dorsal prosoma of the mite.

Characteristics

According to OConnor (1984), the Trombidiformes are characterized by several charcters that unite the Prostigmata (which makes up the majority of the group) with the Sphaerolychidae and Lordalychidae. These characters are: anamorphic segments AN and PA not added in ontogeny; hysterosomal segment C with fewer than four pairs of setae; and hysterosomal segments D and E with fewer than two pairs of setae. OConnor's cladogram also indicates that the character 'hysterosoma without primary segmentation' is a feature of the Trombidiformes; however, as it also occurs in a number of sarcoptiform taxa, it is not a unique character. Lindquist (1996) notes that most (but not all) members of the Trombidiformes can be differentiated from the Sarcoptiformes by having chelicerae with a hooklike or styletlike movable digit rather than the ancestral chelate form. Likewise, many trombidiform mites have a padlike or rayed median empodium in contrast to the clawlike or disk-shaped empodium of sarcoptiforms. Within the Trombidiformes, the Prostigmata are united by having the stigmatal openings to the tracheal system located anteriorly (e.g. on the prodorsum or near the base of the mouthparts).

Discussion of Phylogenetic Relationships

OConnor (1984) performed a cladistic analysis of the major taxa within the Acariformes and determined that the Sphaerolichida and Prostigmata shared two developmental and two setal characters, while the Prostigmata were united by the presence of anterior openings to the tracheal system. Lindquist (1996) and Norton et al. (1993) provide recent cladograms of taxa within the Prostigmata. As these relationships are based on unpublished analyses, it is difficult to discuss the rationale for linking different taxa; however, Lindquist (1996) does provide a list of characters uniting the superfamily Eriophyoidea.

There are several differences between Lindquist's tree, presented above, and that of Norton et al. (see below). While both divide the Prostigmata into three major groups, the Anystina, Eleutherengona and Eupodina, Lindquist nests the Eleutherengona within the Anystina while Norton et al. present them as completely separate clades:

                      ================== Parasitengona
                   ===|
        ==Anystina=|  ================== Anystidae
        |          |
        |          ===================== other Anystina
        |
        |             ================== Labidostommatidae
        |             |
     ===|             |  =============== Eupodoidea
     |  |          ===|  |
     |  |          |  ===|  ============ Tydeoidea
     |  ==Eupodina=|     ===|
     |             |        ============ Eriophyoidea
     |             |
     |             |  ================== Bdelloidea
     |             ===|
     |                =              ?== Halacaroidea
=====|
     |                               === Tetranychoidae
     |                            ===|
     |                         ===|  === Cheyletoidea
     |                      ===|  |
     |                   ===|  |  ====== Raphignathoidea
     |                   |  |  |
     |                   |  |  ========= Pterygosomatoidea
     |                ===|  |
     ==Eleutherengona=|  |  ============ Pomerantzioidea
                      |  |
                      |  |     ========= Pseudocheylidae
                      |  |  ===|
                      |  ===|  ========= Heterostigmata
                      |     |
                      |     ============ Stigmocheylidae
                      |
                      ================== Paratydeidae

Other differences are that Norton et al. shift Bdelloidea and Halacaroidea to the base of the Eupodina, and depict the Parasitengona as relatively derived within the Anystina. Finally, Norton et al. have moved a number of groups typically considered to belong to the Anystina (Pterygosomatoidea, Pomerantzioidea, Pseudocheylidae, Paratydeidae and Stigmocheylidae) to the Eleutherengona; however, they do not provide the rationale for this restructuring.

References

Lindquist, E.E. 1996. Phylogenetic relationships. pp. 301-327 in: E.E. Lindquist, M.W. Sabelis and J. Bruin (eds.) Eriophyoid mites - their biology, natural enemies and control. Elsevier Science, Amsterdam.

Norton, R.A., J.B. Kethley, D.E. Johnston, and B.M. OConnor. 1993. Phylogenetic perspectives on genetic systems and reproductive modes of mites. pp. 8-99 in: D.L. Wrensch and M.A. Ebbert (eds.) Evolution and diversity of sex ratio in insects and mites. Chapman & Hall, New York.

OConnor, B.M. 1984. Phylogenetic relationships among higher taxa in the Acariformes, with particular reference to the Astigmata. pp. 19-27 in D.A.

Griffiths and C.E. Bowman. 1984. Acarology VI, Vol. I. Ellis-Horwood Ltd., Chichester.

Title Illustrations
Click on an image to view larger version & data in a new window
Click on an image to view larger version & data in a new window

Cunaxa (Cunaxidae) feeding on a springtail (Collembola). Drawing copyright © 1998 H.Proctor & D.Walter.

Copyright © 1998 Heather Proctor
About This Page

Heather Proctor
University of Alberta, Edmonton, Alberta, Canada

Correspondence regarding this page should be directed to Heather Proctor at

Page: Tree of Life Trombidiformes. Trombidiform mites. Authored by Heather Proctor. The TEXT of this page is licensed under the Creative Commons Attribution License - Version 3.0. Note that images and other media featured on this page are each governed by their own license, and they may or may not be available for reuse. Click on an image or a media link to access the media data window, which provides the relevant licensing information. For the general terms and conditions of ToL material reuse and redistribution, please see the Tree of Life Copyright Policies.

Citing this page:

Proctor, Heather. 1998. Trombidiformes. Trombidiform mites. Version 09 August 1998. http://tolweb.org/Trombidiformes/2568/1998.08.09 in The Tree of Life Web Project, http://tolweb.org/

edit this page
close box

This page is a Tree of Life Branch Page.

Each ToL branch page provides a synopsis of the characteristics of a group of organisms representing a branch of the Tree of Life. The major distinction between a branch and a leaf of the Tree of Life is that each branch can be further subdivided into descendent branches, that is, subgroups representing distinct genetic lineages.

For a more detailed explanation of the different ToL page types, have a look at the Structure of the Tree of Life page.

close box

Trombidiformes

Page Content

articles & notes

collections

people

Explore Other Groups

random page

  go to the Tree of Life home page
top