Striped Bass Index

Striped Bass (Morone saxatilis)
View the YOY Index (Excel© file)

View the length frequency graph.

Indices Calculated: Age 0

Rounds Used: 1-5

Stations Used
  • Rappahannock: 28, 37, 44, 50, 55
  • Pamunkey: 42, 45, 50
  • Mattaponi: 33, 41, 44, 47
  • James: 29, 36, 46, 56
  • Chickahominy: 01, 03
Method for developing an index

For a given species, an index is created by selecting both spatial and temporal components. The spatial component is determined by the range of the animal and catch rates across the sampling area. The temporal component is selected as a three- to four-month window when the species is most fully recruited to the estuary and available to the sampling gear. With both the spatial and temporal components selected, the data are statistically treated to produce a "geometric mean catch per seine haul," or more simply put, an average catch rate. With several years of data, the results can provide a very informative picture of a species' health and spawning success in Chesapeake Bay.

Other Indices

Although the striped bass abundance index is the primary goal of the Virginia Institute of Marine Science's juvenile striped bass survey, the survey provides valuable data on other ecologically and commercially important species as well. Because the survey is not designed to target these species, subsets of the data are taken to reflect stations and times of year appropriate to their behavior and ecology.

Abundance indices are calculated for Atlantic silversides, hogchoker, spottail shiner, and white perch using the following criteria:

Year classes are assigned by length distribution for species

As only striped bass are individually assigned year class values, year classes for all other species must be assigned by analysis of length distributions.  Length distributions (using several years of data) are plotted by round and presented temporally. An example of one of these graphs is here.  Length cutoff points are determined from these graphs and are used to separate year classes.

  • Age 0 = sampling year and the year class are the same
  • Age 1 = sampling year and the year class values are offset by one year
  • Age 1+ = an undistinguishable (by length frequency analysis) mixture of fishes that are age 1 and older
  • All Ages = year class is unknown
Stations used in index calculations are based on historical CPUE as well as known salinity tolerances

As different species are abundant in different geographical waters, it is not appropriate to use all stations sampled for all species (e.g., don't use freshwater stations for a species that only occurs in salt water).  To determine which stations to use for each species, historical mean abundance at each station is plotted and those regions with the highest catch per unit effort (CPUE) are selected. The stations listed on each Species Information page are those stations presently sampled (since 1989) that have the highest CPUE for the species. However, over the historical span of the survey stations have been moved, added, and dropped. The actual historical station list used for each species may be slightly different. A table containing the historical site visitation record is here.

Historical "rounds" are redefined to correspond with current "rounds"

Species use the regions sampled in a temporal manner. That is, abundance of a species is not necessarily constant throughout the sampling period each year. Further, historically, the 'rounds' have not defined a specific period of time year after year. That is, Round 2 in one year may refer to the last two weeks in July while in another year Round 2 may refer to a period in late August.  Nor were the number of rounds consistent in the historical data.   Therefore, for all species except striped bass, the historical rounds are redefined to the present round definition (5 Rounds defining two-week periods beginning in early July) and data for each species are subset to use the rounds of maximum CPUE.

Different sizes/ages of a species are susceptible to the seine at different times

All species do not reproduce at the same time and are susceptible to the beach-seine gear at different life stages. The length-frequency progressions are examined, and combined with knowledge of the reproductive timing for each species to determine which age cohorts are sampled during a given month/round.

It is not appropriate to calculate indices for all species caught by the seine

Some species, and some age cohorts of some species, are not caught in large enough abundance to calculate a reliable or accurate index.