Phylogenetics of the Mahogany Jerusalem Cricket in Southern California
Collaborators: Robert Fisher, Tod Reeder, David Weissman, and Michael
Caterino
Introduction
The Jerusalem crickets (genus
Stenopelmatus; Orthoptera Stenopelmatidae) of California are poorly
known taxonomically, and have remained virtually unstudied. Until
recently, the group was thought to be represented by only 7 species, due
to high phenotypic similarity. However, ongoing behavioral research
by Dr. David Weissman (California Academy of Sciences) has uncovered many
populations with unique mating songs. Based on his work, Weissman
estimates that there may be as many as 30 to 50 “song species” throughout
California, suggesting that Stenopelmatus has in fact undergone an
extensive species radiation. One such song species (Stenopelmatus
n. sp. “mahogany”) is found exclusively in Southern California on sandy
soil substrates (oak woodland, riparian, chaparral and coastal sage scrub),
ranging north to the Santa Monica Mountains, east to the San Gabriel, San
Bernadino and San Jacinto Mountains and south to Torrey Pines State Park.
The mahogany Jerusalem is physically quite distinct; it is the second largest
insect species known in California, and lacks the abdominal striping pattern
found in all other Stenopelmatus species.
Mahogany Jerusalem
Cricket (photo by David Weissman)
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Scope of the Project
Researchers at USGS San Diego
Field Station are conducting a population genetic study of the mahogany
Jerusalem cricket throughout its range, in collaboration with Dr. David
Weissman and Dr. Michael Caterino (Santa Barbara Natural History Museum).
The reasons behind this study are twofold. First, a genetic study
will allow us to determine historical gene flow linkages throughout the
southern California landscape, adding to the current understanding of diversification
and speciation within Stenopelmatus. Second, a genetic study will allow
insight into how anthropogenic landscape changes (habitat destruction and
fragmentation) have impacted the population structure of this species.
The fairly wide distribution of the mahogany Jerusalem cricket and song cohesion
throughout its range suggest that, historically, mahogany Jerusalem cricket
populations have maintained high levels of gene flow. However, remaining
populations in many coastal and montane areas are now highly fragmented.
Fragmentation and isolation of the coastal sage scrub has increased
dramatically over the last 60 to 100 years. It is likely that fragmentation
has severely limited the movement of these large flightless insects among
remaining habitat patches. This reduction in dispersal and gene flow should
manifest itself in reduced genetic variation within populations and increased
differentiation among populations.
Methods
Individual crickets have been collected throughout the species range in
conjunction with the extensive herpetofaunal monitoring program also being
conducted at USGS BRD. All genetic lab work is being conducted in Dr.
Tod Reeder's laboratory in the Dept. of Biology at San Diego State University.
We are gathering sequences from the Mitochondrial Cytochrome Oxidase
I gene, a commonly used molecular marker for both population genetic and
species-level phylogenetic studies. Preliminary results suggest that
there is a high level of genetic population differentiation among the populations
sampled .
Once completed, this genetic data set will be incorporated into a larger
study in which we will compare the distribution of genetic variation within
several species of diverse evolutionary lineages that inhabit Southern
California (see full proposal attached). This comparative phylogeographic
analysis will identify important physical landscape features that have
shaped patterns of variation and diversification throughout the region.
Ultimately, we hope to incorporate information on regional evolutionary
processes into conservation planning.
This
research is funded by NSF Grant # DBI-0204447
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