Spider mites are members of the family Tetranychidae, which includes about 1,200 species. They are part of the subclass Acari (mites). Spider mites generally live on the undersides of leaves of plants, where they may spin protective silk webs, and can cause damage by puncturing the plant cells to feed. Spider mites are known to feed on several hundred species of plants.
Description
Spider mites are less than in size and vary in color. They lay small, spherical, initially transparent eggs and many species spin silk webbing to help protect the colony from predators; they get the "spider" part of their common name from this webbing. When mated, females avoid the fecundation of some eggs to produce males. Fertilized eggs produce diploid females. Unmated, unfertilized females still lay eggs that originate exclusively haploid males.
To spread to new locations, they make use of ballooning for aerial dispersal.
thumb|Video of multiple spider mites walking on a leaf
Genera
The best known member of the group is Tetranychus urticae, which has a cosmopolitan distribution, and attacks a wide range of plants, including peppers, tomatoes, potatoes, beans, corn, cannabis, and strawberries. Other species which can be important pests of commercial plants include Panonychus ulmi (fruit tree red spider mite) and Panonychus citri (citrus red mite).
The family is divided into these subfamilies, tribes and genera:
;Bryobinae <small>Berlese</small>
- Bryobini <small>Reck</small>
:*Neoschizonobiella <small>Tseng</small>
:*Sinobryobia <small>Ma et al.</small>
:*Marainobia <small>Meyer</small>
:*Bryobia <small>Koch</small>
:*Toronobia <small>Meyer</small>
:*Pseudobryobia <small>McGregor</small>
:*Strunkobia <small>Livshitz & Mitrofanov</small>
:*Mezranobia <small>Athias-Henriot</small>
:*Eremobryobia <small>Strunkova & Mitrofanov</small>
:*Bryobiella <small>Tuttle & Baker</small>
:*Hemibryobia <small>Tuttle & Baker</small>
- Hystrichonychini <small>Pritchard & Baker</small>
:*Bryocopsis <small>Meyer</small>
:*Tetranychopsis <small>Canestrini</small>
:*Notonychus <small>Davis</small>
:*Dolichonobia <small>Meyer</small>
:*Monoceronychus <small>McGregor</small>
:*Mesobryobia <small>Wainstein</small>
:*Hystrichonychus <small>McGregor</small>
:*Parapetrobia <small>Meyer & Rykev</small>
:*Peltanobia <small>Meyer</small>
:*Tauriobia <small>Livshitz & Mitrofanov</small>
:*Aplonobia <small>Womersley</small>
:*Paraplonobia <small>Wainstein</small>
:*Beerella <small>Wainstein</small>
:*Magdalena <small>Baker & Tuttle</small>
:*Porcupinychus <small>Anwarullah</small>
:*Afronobia <small>Meyer</small>
- Petrobiini <small>Reck</small>
:*Neotrichobia <small>Tuttle & Baker</small>
:*Schizonobiella <small>Beer & Lang</small>
:*Schizonobia <small>Womersley</small>
:*Dasyobia <small>Strunkova</small>
:*Lindquistiella <small>Mitrofanov</small>
:*Edella <small>Meyer</small>
:*Petrobia <small>Murray</small>
;Tetranychinae <small>Berlese</small>
- Eurytetranychini <small>Reck</small>
:*Atetranychus <small>Tuttle et al.</small>
:*Synonychus <small>Miller</small>
:*Eurytetranychus <small>Oudemans</small>
:*Eurytetranychoides <small>Reck</small>
:*Eutetranychus <small>Banks</small>
:*Meyernychus <small>Mitrofanov</small>
:*Aponychus <small>Rimando</small>
:*Paraponychus <small>Gonzalez & Flechtmann</small>
:*Sinotetranychus <small>Ma & Yuan</small>
:*Anatetranychus <small>Womersley</small>
:*Duplanychus <small>Meyer</small>
- Tenuipalpoidini <small>Pritchard & Baker</small>
:*Eonychus <small>Gutierrez</small>
:*Crotonella <small>Tuttle et al.</small>
:*Tenuipalpoides <small>Reck & Bagdasarian</small>
:*Tenuipalponychus <small>Channabasavanna & Lakkundi</small>
- Tetranychini <small>Reck</small>
:*Brevinychus <small>Meyer</small>
:*Sonotetranychus <small>Tuttle et al.</small>
:*Mixonychus <small>Meyer & Ryke</small>
:*Evertella <small>Meyer</small>
:*Panonychus <small>Yokoyama</small>
:*Allonychus <small>Pritchard & Baker</small>
:*Schizotetranychus <small>Trägårdh</small>
:*Yunonychus <small>Ma & Gao</small>
:*Yezonychus <small>Ehara</small>
:*Neotetranychus <small>Trägårdh</small>
:*Acanthonychus <small>Wang</small>
:*Mononychellus <small>Wainstein</small>
:*Platytetranychus <small>Oudemans</small>
:*Eotetranychus <small>Oudemans</small>
:*Palmanychus <small>Baker & Tuttle</small>
:*Atrichoproctus <small>Flechtmann</small>
:*Xinella <small>Ma & Wang</small>
:*Oligonychus <small>Berlese</small>
:*Hellenychus <small>Gutierrez</small>
:*Tetranychus <small>Dufour</small>
:*Amphitetranychus <small>Oudemans</small>
Countermeasures
Predatory mites
Predatory mites of the family Phytoseiidae, including Phytoseiulus persimilis, eat adult mites, their eggs, and all developmental stages between. This affects the spider mites' ability to down-regulate the immune response of a plant.
Acaricides
Acaricides are applied to crops to control spider mites. They can be either systemic or non-systemic in nature and can be persistent by providing residual activity for over a month. Drawbacks include high potential for development of resurgence and resistance in mite populations, as has been observed in previous generations of miticides, and toxicity of some miticides towards fish. Thus proper selection, precautions and application are required to minimize risks.
Environmental conditions
Temporarily modifying environmental conditions has proven an effective method for insect pest control including spider mites. Generally dramatically decreased oxygen and increased carbon dioxide concentrations at elevated temperatures can lead to mortality at all developmental stages. However mild CO<sub>2</sub> enrichment has been shown to in fact increase mite reproduction. One study determined a concentration of 0.4% O<sub>2</sub> and 20% CO<sub>2</sub> gave a LT<sub>99</sub> (time to 99% mortality) of 113h at 20 °C and 15.5h at 40 °C. Another study reported 100% mortality of various stages of the two spotted spidermite using 60% CO<sub>2</sub> and 20% O<sub>2</sub> at 30 °C for 16h.
Advantages would include decreased ability for resistance development compared to miticides and potential ease of application while drawbacks might include sensitivity of the plant to the conditions, feasibility of application, and human safety.
See also
- Pests and diseases of roses
References
External links
fi:Vihannespunkki