Description of the Pest
Twospotted spider mites suck the contents of plant cells, causing bleached, stippled, or otherwise discolored foliage. They also make silken strands on plant parts, especially when populations are high. The mites have globular bodies that are 1/50 inch (0.5 mm) or less in diameter. Adults have two dark blotches on the body and overall coloration that varies from gray to green or yellowish. Overwintering females may turn pink to orange during fall to early spring.
Spider mites develop through five life stages. Females lay round eggs that hatch into six-legged larvae. Larvae develop into eight-legged protonymphs, then deutonymphs, then adults. Spider mites have many generations per year and their abundance can increase rapidly when temperatures are warm. Egg to adult development requires about 28 or 8 days when temperatures average 60° and 82°F, respectively.
Damage
Twospotted mite feeding initially causes tiny, pale specks (stippling) on leaves. As feeding continues foliage can become pale green, yellowish, or whitish in large patches. Leaves may eventually turn brownish in large patches or overall and drop prematurely. On the underside of leaves where mites generally feed their pale cast skins and webbing may be visible, which also reduce crop aesthetic quality. Plants may grow slowly or remain undersized if heavily infested. Plants severely infested when young may die.
Management
Biological and cultural controls and certain miticides (acaricides) are used to control spider mites.
Biological Control
Mite predators include bigeyed bugs, brown lacewings, green lacewings, larvae of predaceous midges, rove beetle adults and larvae, spider mite destroyer lady beetle, minute pirate bugs, and sixspotted thrips. Predatory mites are the most important biological control agents, commonly keeping spider mite populations low in outdoor crops. To conserve natural enemies, avoid the application of broad-spectrum, persistent insecticides and miticides and control ants and dust. See Relative Toxicities of Pesticides Used in Floriculture and Nurseries to Natural Enemies and Honey Bees to learn which pesticides are compatible with biological control.
Several species of predatory mites are commercially available for release. Phytoseiulus persimilis may be the most commonly used in greenhouses and nurseries. The best results have been obtained with periodic releases beginning early in the crop cycle when spider mite populations are low. Consider whether environmental conditions are favorable for the predators to be effective. For more information, see Biological Control and Releasing Natural Enemies for Biological Control of Agricultural Pests.
Cultural Control
Carefully inspect new plants and propagation stock to ensure they are pest free. Rogue or effectively treat infested crop plants. Since spider mites feed on many different plants, keep production areas clean and free of weeds that can harbor infestations. Dispose of crop debris and weeds in covered containers .
Organically Acceptable Methods
Biological and cultural controls are organically acceptable management methods. The botanical neem oil, certain narrow-range oils (Organic JMS Stylet-Oil), and potassium salts of fatty acids (insecticidal soap) are acceptable for organic production.
Monitoring and Treatment Decisions
Monitor crop plants regularly for mites and their feeding damage. Look for cast skins, foliage bleaching, silken fibers, and other changes in foliage appearance that are characteristic of mite feeding. At least weekly inspect the undersides of (especially lower) leaves with a 10X hand lens to detect mite presence. Sticky cards traps are not effective for monitoring these wingless pests.
Most miticides must be applied more than once to provide effective control. Follow label directions regarding reapplication times. And for guidelines on when to treat see Establishing Action Thresholds.
Selected Products Registered for Greenhouse or Nursery Ornamentals
| Common name | Amount to use | REI‡ | PHI‡ | |
|---|---|---|---|---|
| (Example trade name) | (hours) | (days) | ||
| Not all registered pesticides are listed. The following are ranked with the pesticides having the greatest integrated pest management (IPM) value listed first—the most effective and least harmful to natural enemies, honey bees, and the environment are at the top of the table. When choosing a pesticide, consider information relating to air and water quality, resistance management, and the pesticide's properties and application timing. Always read the product label. Before using a pesticide for the first time or on a new crop or cultivar, treat a few plants and check for phytotoxicity periodically before deciding whether to apply that product more extensively. | ||||
| A. | CINNAMALDEHYDE | |||
| (Cinnacure A3005) | Label rates | 4 | 0 | |
| MODE-OF-ACTION GROUP NUMBER1: — | ||||
| COMMENTS: A botanical-based synthetic. Use product within 10 days of breaking seal. May be phytotoxic to tender new plant growth. Do not apply to stressed plants or new transplants until roots are well established. | ||||
| A. | NARROW-RANGE OIL2 | |||
| (JMS Stylet Oil, Organic JMS Stylet Oil)# | 1 oz/gal water | 4 | 0 | |
| MODE-OF-ACTION GROUP NUMBER1: — | ||||
| COMMENTS: An oil and contact miticide. Do not spray stressed plants. Target pest must be completely covered with spray. Check label for plants that can be treated. Do not use with sulfur products; check label for tank mix restrictions. | ||||
| A. | NEEM OIL2 | |||
| (Triact 70, Trilogy)# | 1–2 gal/100 gal water | 4 | NA | |
| MODE-OF-ACTION GROUP NUMBER1: UNE | ||||
| COMMENTS: A botanical oil and contact insecticide. Do not spray stressed plants. Target pest must be completely covered with spray. Check label for plants that can be treated. May injure flowers. | ||||
| A. | POTASSIUM SALTS OF FATTY ACIDS2 | |||
| (M-Pede)# | Label rates | 12 | 0 | |
| MODE-OF-ACTION GROUP NUMBER1: — | ||||
| COMMENTS: A soap. Must contact mites, so thorough coverage is important. Do not make more than three sequential applications. Test for phytotoxicity. Do not spray new transplants or newly rooted cuttings. Do not add adjuvants. | ||||
| B. | BIFENAZATE | |||
| (Floramite) | 4–8 fl oz/100 gal water | 12 | NA | |
| MODE-OF-ACTION GROUP NUMBER1: 20D | ||||
| COMMENTS: An inhibitor of energy metabolism. Do not make sequential applications; rotate to at least two different modes of action between applications of bifenazate. Controls mite adults and nymphs; has some ovicidal activity. | ||||
| C. | HEXYTHIAZOX | |||
| (Hexygon IQ) | 4–8 oz/100 gal water | 12 | NA | |
| MODE-OF-ACTION GROUP NUMBER1: 10A | ||||
| COMMENTS: A mite growth inhibitor. Effective for mite eggs and immatures. Use only once per crop or once per year. | ||||
| D. | FENPYROXIMATE | |||
| (Akari 5SC) | 16–32 fl oz/100 gal water | 12 | NA | |
| MODE-OF-ACTION GROUP NUMBER1: 21A | ||||
| COMMENTS: An inhibitor of arthropod energy metabolism. Do not apply more than 10 gal spray/1000 sq ft per application. Do not exceed 48 oz/crop or growing season.. | ||||
| D. | CYFLUMETOFEN | |||
| (Sultan) | 13.7 fl oz/100 gal water | 12 | NA | |
| MODE-OF-ACTION GROUP NUMBER1: 25 | ||||
| COMMENTS: An inhibitor of arthropod energy metabolism. | ||||
| D. | FENAZAQUIN | |||
| (Magus) | 12–24 oz/100 gal water | 12 | NA | |
| MODE-OF-ACTION GROUP NUMBER1: 21A | ||||
| COMMENTS: An inhibitor of arthropod energy metabolism. Do not make more than one application per crop. | ||||
| D. | ETOXAZOLE | |||
| (Eschaton 5 WDG) | Label rates | See label | NA | |
| MODE-OF-ACTION GROUP NUMBER1: 10B | ||||
| COMMENTS: A mite growth inhibitor. Do not apply more than two times per crop or within a six month period. Check label for allowed uses. | ||||
| D. | CLOFENTEZINE | |||
| (Notavo) | Label rates | 12 | NA | |
| MODE-OF-ACTION GROUP NUMBER1: 10A | ||||
| COMMENTS: A mite growth inhibitor. Do not apply through any type of irrigation system. | ||||
| D. | ACEQUINOCYL | |||
| (Shuttle O) | 6.4–12.8 fl oz/acre | 12 | NA | |
| MODE-OF-ACTION GROUP NUMBER1: 20B | ||||
| COMMENTS.: An inhibitor of mite energy metabolism. Do not apply more than 25.6 fl oz per acre per year. | ||||
| E. | PYRIDABEN | |||
| (Sanmite SC) | 6.4–9.6 oz per acre | 12 | NA | |
| MODE-OF-ACTION GROUP NUMBER1: 21A | ||||
| COMMENTS: An inhibitor of arthropod energy metabolism. Rotate to at least two different modes of action between applications of pyridaben. Do not use fertilizers containing boron or apply through any type of irrigation system. | ||||
| F. | CHLORFENAPYR | |||
| (Pylon) | 2.6–5.2 fl oz/100 gal water | 12 | 0 | |
| MODE-OF-ACTION GROUP NUMBER1: 13 | ||||
| COMMENTS: An inhibitor of arthropod energy metabolism. Greenhouse use only. Do not exceed two applications per crop. | ||||
| G. | ABAMECTIN | |||
| (Abamectin 0.15EC, Avid 0.15EC) | 8 fl oz/100 gal water | 12 | NA | |
| MODE-OF-ACTION GROUP NUMBER1: 6 | ||||
| COMMENTS: An avermectin. Add narrow-range oil to the mix to improve efficacy persistence if allowed by both labels; if so, do not spray stressed plants and do not use with sulfur products. Apply as a spray. Label permits low-volume application. Do not apply through certain types of irrigation systems; consult label for restrictions. | ||||
| H. | BIFENTHRIN | |||
| (Attain TR, Talstar S Select) | Label rates | 12 | NA | |
| MODE-OF-ACTION GROUP NUMBER1: 3A | ||||
| A pyrethroid. Check label for permitted uses. Attain TR is a fogger for greenhouse use only. | ||||
| H. | FENPROPATHRIN | |||
| (Tame 2.4EC Spray) | 8–16 fl oz/100 gal water | 24 | NA | |
| MODE-OF-ACTION GROUP NUMBER1: 3A | ||||
| COMMENTS: A pyrethroid. | ||||
| H. | TAU-FLUVALINATE | |||
| (Mavrik Aquaflow) | 4–10 fl oz/100 gal water | 12 | NA | |
| MODE-OF-ACTION GROUP NUMBER1: 3A | ||||
| COMMENTS: A pyrethroid. Label permits low-volume application. Also labeled as a cutting dip at 5 fl oz/100 gal. | ||||
| ‡ | Restricted entry interval (REI) is the number of hours (unless otherwise noted) from treatment until the treated area can be safely entered without protective clothing. Preharvest interval (PHI) is the number of days from treatment to harvest. |
| # | Acceptable for use on organically grown ornamentals. |
| — | Unknown. |
| NA | Not applicable. |
| 1 | Rotate pesticides with a different mode-of-action group number, and do not use products with the same mode of action more than twice per season to help prevent the development of resistance. For example, organophosphates have a group number of 1B; pesticides with a 1B group number should be alternated with pesticides that have a group number other than 1B. Mode-of-action group numbers for acaricides (miticides), insecticides, nematicides, and molluscicides are assigned by the Insecticide Resistance Action Committee (IRAC). |
| 2 | Single doses of oils and potassium salts of fatty acids (soaps) can be used anytime as pesticide rotation without negatively impacting resistance management. |