- Author: Surendra Dara
Asian citrus psyllid adult and immatures on citrus (Photo by Michael Rogers, UC)
Asian citrus psyllid (ACP) was found on November 5 in Santa Maria for the first time. This is actually the first report of its presence in Santa Barbara County after it appeared nearly two years ago (January, 2011) in Ventura County. A single psyllid was found on a CDFA trap in a residential area in Santa Maria and CDFA immediately treated the area and the surroundings.
ACP is a small homopteran insect that looks like a miniature cicada. It transmits a bacterial disease known as citrus greening or huanglongbing (HLB) or yellow dragon disease. Both the pest and disease are native to Asia and pose a serious threat to the citrus industry.
Aggressive quarantine and area wide management efforts by CDFA and other agencies are limiting the spread of the pest and the disease.
A summary of ACP and HLB can be found at: http://ucanr.edu/blogs/blogcore/postdetail.cfm?postnum=4165
For additional information, visit http://www.aphis.usda.gov/plant_health/plant_pest_info/citrus_greening/
index.shtml and http://www.cdfa.ca.gov/phpps/acp/.
If you notice this pest, please bring it to my attention (skdara@ucdavis.edu or 805-781-5940) or your local Ag Commissioner's Office.
- Posted By: Surendra Dara
- Written by: Surendra Dara
Someone recently brought specimens of what they thought were bed bugs. Actually they are larvae of carpet beetle. Here is a brief note about them.
Carpet beetles belong to the Coleopteran family of Dermestidae, which are commonly known as dermestid or skin beetles. These are scavengers and feed on a variety of plant and animal material. Larger members of this family belong to the genus Dermestes. Smaller and common household pests belong to the genera Attagenus and Anthrenus. Dermestids feed on furniture, carpet, fur, leather, stored food, museum specimens, and other materials.
Varied carpet beetle larva dorsal view (above) and ventral view (below). Photo by: Surendra Dara
The three species of carpet beetles common in California are varied carpet beetle (Anthrenus verbasci), furniture carpet beetle (A. flavipes), and black carpet beetle (Attagenus megatoma). The specimens I received appear to be varied carpet beetle larvae.
More information on carpet beetles, their identification and control can be found at http://www.ipm.ucdavis.edu/PMG/PESTNOTES/pn7436.html.
- Posted By: Surendra Dara
- Written by: Surendra Dara
Brown marmorated stink bug adult male (Photo by: Surendra Dara, UCCE and Rodney Cooper, USDA-ARS)
Brown marmorated stink bug (BMSB), Halyomorpha halys Stål was recently found in San Luis Obispo County in an incoming shipment of household items from Pennsylvania, where it is considered as a serious pest. Ag Commissioner's office took immediate action to eradicate this intruder by physical removal and chemical treatments. In light of this, here is a brief note on this invasive pest.
Origin and distribution:BMSB is native to Asia and is considered as an important pest in China, Japan, Korea, and Taiwan. It was first reported in Pennsylvania in late 90s and is now reported in a majority of the states in the US. However, reproducing populations may not be present in all the states it was found. In California, Los Angeles County is the only place where populations of BMSB are known to exist.
Host range: It has a wide host range that includes about 300 species according to a report. It feeds on a variety of hosts that include fruit trees, broadleaved trees, vegetables, field crops, and ornamental plants. It is also a nuisance to homeowners as it looks for hiding locations in or around the houses to overwinter.
Depressions on the fruit surface normally result from late season feeding damage of BMSB (above). Corking injury due to the necrosis of damaged tissue (below). (Photos by Chris Bergh, Virginia Tech)
Damage: BMSB has piercing and sucking mouthparts with which it sucks plant juices from fruits, pods, or other parts and causes malformation, discoloration or cloudy spots, depressed areas, and wart-like growth depending on the plant or damaged part. Small dark spots also develop as a result of puncturing by its mouthparts and these areas can harbor secondary infections. BMSB is also known to transmit witches' broom, a phytoplasma disease in princess tree (Paulownia tomentosa) in Japan, but such disease transmission has not been reported in the US.
Characteristic features that help distinguish the brown marmorated stink bug from other stink bugs
(Photo by: Surendra Dara, UCCE and Rodney Cooper, USDA-ARS)
Biology: BMSB belongs to the stink bug family Pentatomidae in the order Hemiptera. It is a shield shaped bug which emits pungent odor when disturbed. Adults are 12-17 mm long with mottled brown body. Last two antennal segments have alternating light and dark bands which appear as a single white band. This is a characteristic feature of this species. Exposed margins of the abdomen (not covered by the wings) have alternating brown and white bands. White bands are also seen on legs. Eggs are spherical to barrel-shaped, white to pale green and deposited each week in clusters of 20-30 on the underside of leaves. Female can lay 250-400 in its life time. There are 5 nymphal instars which range in size from 2.4 to 12 mm. First instar nymphs are reddish orange and second instars are black. Later instars develop brown coloration. Depending on temperature, egg stage lasts for 4-5 days and each nymphal instar for a week. Adults reach sexual maturity in two weeks.
Adults mate in spring and females continue egg laying for the next few months. Adults gather in large numbers in fall in search of overwintering places. In warmer regions of China, BMSB has multiple generations per year. In the US, it was initially thought to have a single generation, but recent reports indicate more than one generation per year.
Management: Hand removal or vacuuming is the best way to remove BMSB in or around homes. Mechanical exclusion by sealing the cracks and crevices that serve as hiding locations, and using screens for doors and windows is also important. Various insecticides are available for managing this insect in other situations. In laboratory bioassays, pyrethroid insecticides (especially bifenthrin) were more effective compared to neonicotinoids and an organophosphate compound. Males were less susceptible than the females to thiomethoxam (neonicotinoid). There are no known natural enemies in the US, but an egg parasitoid [Trissolcus halymorphae Yang (Hymenoptera: Scelionidae)] is found to be very effective in China.
What to do: It is important to note that care must be taken to exclude pests in packages while moving from other areas. If you notice BMSB in your surroundings, bring it to the attention of the Ag Commissioner or contact me at skdara@ucdavis.edu or 805-781-5940.
http://ucanr.edu/articlefeedback
References:
Bernon, G. K., M. Bernhard, E. R. Hoebeke, M. E. Carter and L. Beanland. 2004. Halyomorpha halys, (Heteroptera: Pentatomidae), the brown marmorated stink bug; Are trees the primary host for this new invasive pest? GTR-NE-332. Proc. XV USDA Interagency Res. Forum on Gypsy Moth and Other Invasive Species 2004
Jones, J. R. and P. L. Lambdin. 2009. New county and state Records for Tennessee of an exotic pest, Halyomorpha halys (Hemiptera: Pentatomidae), with potential economic and ecological implications. Florida Entomologist 92: 177-178.
Nielsen A. L, P. W. Shearer, G. C. Hamilton. 2008. Toxicity of insecticides to Halyomorpha halys (Hemiptera: Pentatomidae) using glass-vial bioassays. J. Economic Entomol. 101: 1439-1442.
Yang Z., Y. Yao, L. Oiu , Z. Li. 2009. A new species of Trissoltus (Hymenoptera: Scelionidae) parasitizing eggs of Halyomorpha halys (Heteroptera: Pentatomidae) in China with comments on its biology. Annals of the Entomological Society of America 102: 39-47.
Additional resources:
http://edis.ifas.ufl.edu/in623
http://ento.psu.edu/extension/factsheets/brown-marmorated-stink-bug
http://entnemdept.ufl.edu/creatures/veg/bean/brown_marmorated_stink_bug.htm
http://pestthreats.umd.edu/content/documents/BMSBFactSheet_10-2010_000.pdf
http://www.aphis.usda.gov/plant_health/plant_pest_info/bmsb/index.shtml
http://www.entsoc.org/PDF/Pubs/Periodicals/AE/AE-2009/Spring/Hamilton-sym.pdf
/span>- Posted By: Surendra Dara
- Written by: Surendra Dara
Japanese dodder, Cuscuta japonica recently found in Lompoc, Santa Barbara Co.
(Photo by: Matt Victoria, Santa Barbara Ag Commissioner's Office)
Japanese dodder is an exotic parasitic weed which is a high priority noxious weed in California. It was recently detected in a natural wooded area in Lompoc. It is the first time it is reported in Santa Barbara Co and the Ag Commissioner's office is taking an immediate action.
Biology:Japanese dodder, Cuscuta japonica is a parasitic plant that belongs to Convolvulaceae family (note that older literature refers to it as a member of Cuscutaceae family). It is a parasitic annual plant that has a slender, yellow stem with red spots and striations, and scale-like leaves. It produces haustoria (singular hostorium), which are root-like structures that penetrate the vascular tissue of the host and absorb nutrients and water. It can reproduce by seed and by vegetative means through fragments of the plant. Seed can germinate in soil, but the plant has to come in contact with a host to for the young shoot to survive beyond a few days. It appears that Japanese dodder seed produced in California is not viable and vegetative reproduction is the main source of propagation.
Host range: Japanese dodder has a wide host range that includes herbaceous annuals to woody shrubs and trees. Crop plants like corn, cucumber, egg plant, pea, pumpkins, soybean, and tomato, and ornamental shrubs, fruit and other trees are among the hosts that are parasitized by this weed.
Damage: Depending on the extent of infestation, damage can range from stunted growth to death. Japanese dodder growers faster and spreads to larger areas than the other dodders.
Dissemination: It is spread by equipment, birds, animals and people as seed and fragments of plant material. Gardening activities and improper composting and infested plant material can spread the weed. Intentional planting for medicinal purposes is thought to be a significant factor for the dissemination of this weed.
Management: Prevention of the infestation is the best way to manage Japanese dodder. Due to its current status a high priority regulated pest, one should not attempt to control or remove Japanese dodder if detected. It should be immediately reported to the local Ag Commissioner's office (805-681-5600 for Santa Barbara Co and 805-781-5910 for San Luis Obispo Co).
Detailed information on Japanese dodder biology, identification, and reporting the infestation can be found at the following sources.
http://ucanr.edu/articlefeedback
References:
Santa Barbara Co Ag Commissioner's Office: http://www.countyofsb.org/agcomm/wma.aspx?id=29344
UC IPM: http://www.ipm.ucdavis.edu/PMG/PESTNOTES/pn7496.html
CDFA Noxious Weed Information Project: http://www.cdfa.ca.gov/plant/ipc/noxweedinfo/noxweedinfo_jdodder.htm
Center for Invasive Species and Ecosystem Health: http://www.invasive.org/eastern/other/DicCusCjO01.pdf
- Posted By: Surendra Dara
- Written by: Surendra Dara
Manzanita leaves showing blotch mines and cases made by Coleophora sp.
(Photo by: Surendra Dara)
Manzanita (Arctostaphylos sp.) leaf samples that were recently brought from the San Luis Obispo area appear to have casebearer infestation.
Casebearer adults are small, narrow moths that belong to the family of
Coleophoridae in the order Lepidoptera. Young larvae are leaf miners. Their name comes from the casing they make with silk, frass and plant material as older larva. Pupation takes place inside the casing.
The specimens in hand appear to be Coleophora sp. It has a selnder, shiny dark brown or black casing that is about 0.4 inches (10 mm) and is attached to the leaf lamina near the mined area. The type of mine is blotch mine where larva turns around (unlike the unidirectional serpentine mines) causing irregularly shaped mine.
Blotch mine and pupal case (Photo by: Surendra Dara and Rodney Cooper, USDA-ARS).
Pupa is located towards the end attached to the leaf. The other end of the case is flat. (Photo by: Surendra Dara and Rodney Cooper, USDA-ARS)
Empty pupal case after the adult emergence, above and below (Photo by: Surendra Dara and Rodney Cooper, USDA-ARS)
Reference
Borror, D. J., C. A. Triplehorn, and N. F. Johnson. 1989. An introduction to the study of insects, 6th edition. Saunders College Publishing.