Abstract:
RAMAS Ecotoxicology carries out ecological risk assessments for systems of two kinds: structured single populations and food chains.
Structured population models (RAMAS Ecotoxicology): Specify survival and fecundity for each age/stage class; add density dependence for selected ages/stages; select dose-response models for survival and fecundity; estimate population-level parameters such as growth ... rate and extinction risk.
In each case, a model of population dynamics and toxicant kinetics is constructed using a simple Windows interface, and linked to bioassay data. Parameters can be specified as scalars, intervals or distributions, to take account of environmental variability and ignorance. Monte Carlo simulations are then used to predict future population trajectories, and calculate the risk of adverse events such as extinctions or algal blooms. RAMAS Ecotoxicology and RAMAS Ecosystem are practical tools that highlight the importance of including ecological interactions in risk assessments.
Population-level Ecotoxicological Risk Assessment (RAMAS Ecotoxicology: RAMAS Ecotoxicology is used to make population-level ecological risk assessments for environmental contaminants. It imports data from standard laboratory bioassays, incorporates these data into the parameters of a population model, and performs a risk assessment by analyzing population-level differences between control and impacted samples.
Bioassays for assessing the impact of toxins on natural systems are usually expressed in terms of individual-level assessment endpoints such as growth, survivorship and fecundity. RAMAS Ecotoxicology translates such results into a forecast of their likely consequences at the level of the entire population. For instance, if there is an increase in mortality rate due to a contaminant, the meaning of this effect can only be determined by projecting the consequence in terms of the total populationýs future abundance and vitality. It is generally important to do this projection to the poulation level because impacts at the organismal level cannot be easily extrapolated to predict their population-level consequences. For instance, minor and inconspicuous impacts on individuals can sometimes cascade through population dynamics into significant effects at the level of the population. Conversely, seemingly major impacts on individuals may translate into only minor population-level consequences once the normal population feedbacks have been taken into account. Moreover, contradictory findings are possible at the level of the individual (e.g., decreased survival but increased fecundity) that must be resolved.
RAMAS Ecotoxicology uses stage-structured single-population models and food chain models to make the necessary projections. The software checks the validity of the input and model structure specified by the user. It uses a sophisticated second-order Monte Carlo engine to project both natural temporal variability and measurement error, and expresses its results in risk-analytic outputs such as the risk of the population's declining to a given level.
RAMAS Ecotoxicology was developed by Applied Biomathematics with support from the Electric Power Research Institute.
Ecosystem-level Ecotoxicological Risk Assessment: Manage variability and uncertainty, express results as ecological risks. Features include: Specify parameters as scalar numbers, intervals (e.g. [10,15] mg per liter) or distributions (e.g. [10,1]mg per liter); automatic unit conversions and checking for dimensional consistency, Dose-response model: Weibul, probit, logit, Predator-prey interactions: Lotka-Volterra, Holling type II. Ratio-dependent, Density dependence: ceiling, logistic, Ricker, Beverton-Holt Monte Carlo treatment of measurement error and evironmental variation; summarize results as biomass/abundance projections and risk statistics; display graphs and tables, save or paste into other applications; comprehensive online help; minimum system requirements: IBM PC-compatible, 486 with VGA monitor, Windows 3.1 (math coprocessor and 8Mb RAM recommended).
Quality
RAMAS software is used at more than 1000 institutions, laboratories and government offices and by thousands of students in 50 countries worldwide. It's used by ecologists, resource managers, and population biologists who need to predict population structure and size through time and assess population and species extinction risks.
Access Constraints
none
Use Constraints
Minimum system requirements: IBM PC-compatible, 486 with VGA monitor, Windows 3.1 (math coprocessor and 8Mb RAM recommended).
Name:
APPLIED BIOMATHEMATICS REPRESENTATIVE
Phone:
1-631-751-4350
Fax:
1-631-751-3435
Email:
info at ramas.com
Contact Address:
Applied Biomathematics
100 North Country Road City:
Setauket
Province or State:
NY
Postal Code:
11733
Country:
USA
Distribution Media
Fees:
$395 - $995
Personnel
TYLER
B.
STEVENS Role:
SERF AUTHOR
Phone:
(301) 614-6898
Fax:
301-614-5268
Email:
Tyler.B.Stevens at nasa.gov
Contact Address:
NASA Goddard Space Flight Center
Global Change Master Directory City:
Greenbelt
Province or State:
MD
Postal Code:
20771
Country:
USA
APPLIED BIOMATHEMATICS REPRESENTATIVE Role:
TECHNICAL CONTACT
Phone:
1-631-751-4350
Fax:
1-631-751-3435
Email:
info at ramas.com
Contact Address:
Applied Biomathematics
100 North Country Road City:
Setauket
Province or State:
NY
Postal Code:
11733
Country:
USA
Publications/References
The following review of Applied Population Ecology was published in The Quarterly Review of Biology, vol. 73, no. 3, pages 380-381, September 1998.
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