Caddisfly - Psychoglypha browni (Psychoglypha browni )

Close up of a Caddisfly - Rhyacophila acutiloba; winged adult standing on a light-colored surface.
Photo by T. Murray

This is not a Psychoglypha browni but is an example of a caddisfly

Category: Arthropods
Ecosystems: Riparian areas
Vulnerability to climate change (More details)

Moderate-
High

The population size and trend of Psychoglypha browni is unknown in Washington.

Caddisflies are aquatic insects. They are very sensitive to water quality and changes in water flow. Caddisflies in general are often considered an indicator of high-quality streams, suggesting that they are particularly vulnerable to changes in their habitat. 

Description and Range

Physical description

Caddisflies are closely related to the Lepidoptera (moths and butterflies). The adult’s body and wings are covered with long silky hairs (setae) – a distinctive characteristic of the order. Caddisflies are aquatic in the immature stages.

 

Ecology and life history

This species inhabits depositional areas of streams and large springs in mid- and high-altitude localities.

During the day, adults hide in cool, moist environments such as the vegetation along riverbanks. Few caddisfly adults have actually been observed feeding; they imbibe nectar.

Adults live several weeks and usually mate on vegetation or rocks surrounding water. Eggs, in masses numbering up to 800, are laid within a jelly that swells on contact with water. A female may wash off a partially extruded egg mass by dipping her abdomen into water during flight, or she may place the mass on stones in the water or on aquatic plants just above the water. Young larvae hatch within a few days and progress through multiple instars before emerging as a winged adult.

Although most larvae feed on aquatic plants, algae, diatoms, or plant debris, a few are predatory on other aquatic insects, crustaceans, and mollusks, and a few are omnivorous. The larvae play an important role in the aquatic community, reducing plant growth and disposing of animal and plant debris. 

Caddisfly adults sometimes emerge in large numbers, often forming swarms. Adults tend to remain somewhat near the emergence site where oviposition occurs. They tend to disperse shorter distances in dense forest compared with more open vegetation. Although dispersal flights are common, such flights are relatively short and only occur immediately following emergence.

Geographic range

This species has been recorded from two creeks in Mount Rainier National Park, Pierce County, Washington. Adults are known from Oregon (Clackamas, Klamath, and Lane Counties). The larvae are undescribed/unknown.  

For a map of range-wide distribution and conservation status of this species, check out NatureServe Explorer.

Climate vulnerability

Sensitivity to climate change

Moderate-
High

Psychoglypha browni is an uncommon species of caddisfly found only in the Cascades region of Washington and Oregon. Little is known about this species, though the genus Psychoglypha is restricted to coldwater aquatic habitats such as streams, small rivers, and ponds in high-elevation forested areas. Sensitivity reflects their specialized habitat, which is vulnerable to warming air and water temperatures, drought and changing precipitation patterns, sedimentation from upstream erosion, and habitat fragmentation from nearby human activity (i.e. forestry practices and road construction). Caddisflies in general are often considered an indicator of high-quality streams, suggesting that they are may be vulnerable to changes in their habitat.

Confidence: Moderate

Exposure to climate change

Moderate-
High

  • Increased air and water temperatures
  • Drought and/or changes in precipitation
  • Low summer flows
  • Increased sedimentation and erosion
Confidence: Moderate

Conservation
This species is identified as a Species of Greatest Conservation Need (SGCN) under the State Wildlife Action Plan (SWAP). SGCN-classified species include both those with and without legal protection status under the Federal or State Endangered Species programs, as well as game species with low populations. The WDFW SWAP is part of a nationwide effort by all 50 states and five U.S. territories to develop conservation action plans for fish, wildlife and their natural habitats—identifying opportunities for species' recovery before they are imperiled and more limited.

Conservation Threats and Actions Needed

  • Resource information collection needs
    • Threat: Lack of data on current status and distribution
    • Action Needed: Determine distribution and population status
  • Fish and wildlife habitat loss or degradation
    • Threat: Water quality is of extreme importance to aquatic insects
    • Action Needed: Protect riparian habitats
  • Climate and severe weather
    • Threat: Drying of streams
    • Action Needed: Determine distribution and population status

See the Climate vulnerability section for more information about the threats posed by climate change to this species.

Resources

References

Anderson, N. H. 1976. The distribution and biology of the Oregon Trichoptera. Oregon Agricultural Experiment Station Technical Bulletin, 134:1-152.

Clemson University Department of Entomology (J.C. Morse, ed.). 2002. Last Updated 5 September 2006. Trichoptera World Checklist. Online. Available: http://entweb.clemson.edu/database/trichopt/index.htm.

Denning, D. G. New species of Trichoptera. Pan-Pacific Entomologist 49:132-143.

NatureServe. 2014. NatureServe Explorer: An online encyclopedia of life [web application]. Version 7.1. NatureServe, Arlington, Virginia. Available http://explorer.natureserve.org.

Ruiter, D. E., B. C. Kondratieff, R. A. Lechleitner, and R. E. Zuellig. 2005. An annotated list of the caddisflies (Trichoptera) of Mt. Rainier National Park, Washington, USA. Transactions of the American Entomological Society 131(1/2): 159-187.

D. Ruiter, pers.comm.

Other resources