John L. Schnase scite author profile

Risk analysis for biological invasions is similar to other types of natural and human hazards. For example, risk analysis for chemical spills requires the evaluation of basic information on where a spill occurs; exposure level and toxicity of the chemical agent; knowledge of the physical processes involved in its rate and direction of spread; and potential impacts to the environment, economy, and human health relative to containment costs. Unlike typical chemical spills, biological invasions can have long lag times from introduction and establishment to successful invasion, they reproduce, and they can spread rapidly by physical and biological processes. We use a risk analysis framework to suggest a general strategy for risk analysis for invasive species and invaded habitats. It requires: (1) problem formation (scoping the problem, defining assessment endpoints); (2) analysis (information on species traits, matching species traits to suitable habitats, estimating exposure, surveys of current distribution and abundance); (3) risk characterization (understanding of data completeness, estimates of the "potential" distribution and abundance; estimates of the potential rate of spread; and probable risks, impacts, and costs); and (4) risk management (containment potential, costs, and opportunity costs; legal mandates and social considerations and information science and technology needs).

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A tamarisk habitat suitability map for the continental United States

Morisette

Jarnevich

Ullah³

et al. 2006

Frontiers in Ecology and the Environment

112

101

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This paper presents a national‐scale map of habitat suitability for tamarisk (Tamarix spp, salt cedar), a high‐priority invasive species. We successfully integrate satellite data and tens of thousands of field sampling points through logistic regression modeling to create a habitat suitability map that is 90% accurate. This interagency effort uses field data collected and coordinated through the US Geological Survey and nationwide environmental data layers derived from NASA's MODerate Resolution Imaging Spectroradiometer (MODIS). We demonstrate the use of the map by ranking the 48 continental US states (and the District of Columbia) based on their absolute, as well as proportional, areas of “highly likely” and “moderately likely” habitat for Tamarix. The interagency effort and modeling approach presented here could be used to map other harmful species, in the US and globally.

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MERRA Analytic Services: Meeting the Big Data challenges of climate science through cloud-enabled Climate Analytics-as-a-Service

Schnase

Duffy

Tamkin

et al. 2017

Computers, Environment and Urban Systems

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An introduction toOplismenus undulatifolius(Ard.) Roem. & Schult. (wavyleaf basketgrass), a recent invader in Mid-Atlantic forest understories^1,²

Beauchamp¹,

Koontz²,

Suss³

et al. 2013

The Journal of the Torrey Botanical Society

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A spatiotemporal indexing approach for efficient processing of big array-based climate data with MapReduce

Schnase

et al. 2016

International Journal of Geographical Information Science

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John L. Schnase

Risk Analysis for Biological Hazards: What We Need to Know about Invasive Species

A tamarisk habitat suitability map for the continental United States

MERRA Analytic Services: Meeting the Big Data challenges of climate science through cloud-enabled Climate Analytics-as-a-Service

An introduction toOplismenus undulatifolius(Ard.) Roem. & Schult. (wavyleaf basketgrass), a recent invader in Mid-Atlantic forest understories^1,²

A spatiotemporal indexing approach for efficient processing of big array-based climate data with MapReduce

Contact Info

Product

Resources

About

John L. Schnase

Risk Analysis for Biological Hazards: What We Need to Know about Invasive Species

A tamarisk habitat suitability map for the continental United States

MERRA Analytic Services: Meeting the Big Data challenges of climate science through cloud-enabled Climate Analytics-as-a-Service

An introduction toOplismenus undulatifolius(Ard.) Roem. & Schult. (wavyleaf basketgrass), a recent invader in Mid-Atlantic forest understories1,2

A spatiotemporal indexing approach for efficient processing of big array-based climate data with MapReduce

Contact Info

Product

Resources

About

An introduction toOplismenus undulatifolius(Ard.) Roem. & Schult. (wavyleaf basketgrass), a recent invader in Mid-Atlantic forest understories^1,²