Staging of the Ecological Niche Modeling Mammal Prototype Project Deana Pennington University of New Mexico December 14, 2004.

Slides:

Advertisements

Similar presentations

WP3 Biomapping results to date WP3: NRM, CDF, CEFAS, DINARA, WCS Additional input: WP1, AquaMaps workgroup.

Advertisements

GARP Genetic Algorithm for Rule-set Production

Geospatial web services applied to Biodiversity Modelling Karla Donato Fook Advisors: Dr. Antônio Miguel V. Monteiro Dr. Gilberto Câmara Collaboration:

Using Specimen Data in Scientific Workflow Environments to Connect to Metadata Archive and Discovery Services in Environmental Biology CJ Grady, J.H. Beach,

Chad Berkley National Center for Ecological Analysis and Synthesis (NCEAS), University of California, Santa Barbara February.

Introduction to Kepler Deana Pennington, PhD University of New Mexico LTER Network Office, Sevilleta LTER PI CI-Team: Advancing CI-Based Science through.

Jane Costa Instituto Oswaldo Cruz, Fiocruz

Leveraging semantic metadata for ecological data discovery and integration for analysis and modeling Matthew B. Jones Mark P. Schildhauer with contributions.

Open source administration software for education software development simplified KRAD Kuali Application Development Framework.

EC Grant Agreement no GEOSS Interoperability for Weather Ocean and Water Enhancing the GEOSS Infrastructure for all the Stakeholders.

SEEK: Enabling Ecology and Biodiversity Science Through Cyberinfrastructure.

Bridging Species Niche Modeling and Multispecies Ecological Modeling and Analysis Jeffery Cavner, J.H. Beach, Aimee Stewart, CJ Grady

Introduction for BEAM Ecological Niche Modeling Working Meeting Deana Pennington University of New Mexico December 14, 2004.

Jake F. Weltzin United States Geological Survey Mark D. Schwartz University of Wisconsin - Milwaukee The RCN & the USA-NPN Founding & Current.

Supporting Large-Scale Science with Workflows Deana Pennington University of New Mexico Long-Term Ecological Research Network Office ITR: Science Environment.

Pipelines and Scientific Workflows with Ptolemy II Deana Pennington University of New Mexico LTER Network Office Shawn Bowers UCSD San Diego Supercomputer.

EcoGrid SEEK All Hands Meeting February 2003 Albuquerque, NM.

IPlant cyberifrastructure to support ecological modeling Presented at the Species Distribution Modeling Group at the American Museum of Natural History.

NR 422- Habitat Suitability Models Jim Graham Spring 2009.

A performance evaluation approach openModeller: A Framework for species distribution Modelling.

Index Building Overview Database tables Building flow (logical) Sequential Drawbacks Parallel processing Recovery Helpful rules.

SEEK EcoGrid l Integrate diverse data networks from ecology, biodiversity, and environmental sciences l Metacat, DiGIR, SRB, Xanthoria,... l EML is the.

Chad Berkley NCEAS National Center for Ecological Analysis and Synthesis (NCEAS), University of California Santa Barbara Long Term Ecological Research.

Candidate KBA Identification: Modeling Techniques for Field Survey Prioritization Species Distribution Modeling: approximation of species ecological niche.

Research Design for Collaborative Computational Approaches and Scientific Workflows Deana Pennington January 8, 2007.

Grid Technologies Arcot Rajasekar (SEEK) Paul Watson (North East eScience Centre)

Museum and Institute of Zoology PAS Warsaw Magdalena Żytomska Berlin, 6th September 2007.

Role of Spatial Database in Biodiversity Conservation Planning Sham Davande, GIS Expert Arid Communities Technologies, Bhuj 11 September, 2015.

Brainstorming: Concepts (part I) After user research, our team had several brainstorming sessions for conceptual design, navigation and interaction: How.

Using Desktop Data in Kepler Dan Higgins – NCEAS Prepared for: Ecoinformatics Training for Ecologists LTER (Albuquerque) January 8-12, 2007

Niches, Interactions and Movements. Calculating a Species Distribution Range Jorge Soberon M. A. Townsend Peterson.

Enrique Martínez-Meyer

We Call Them Incidents  Attendance Enterprise Will be Equipped with an Incident Engine  Incidents are Configurable Much Like Parameters and Accruals.

CISN: Draft Plans for Funding Sources: OES/FEMA/ANSS/Others CISN-PMG Sacramento 10/19/2004.

Niches, distributions… and data Miguel Nakamura Centro de Investigación en Matemáticas (CIMAT), Guanajuato, Mexico Warsaw, November 2007.

EScience Workshop on Scientific Workflows Matthew B. Jones National Center for Ecological Analysis and Synthesis University of California Santa Barbara.

Shridhar Bhalerao CMSC 601 Finding Implicit Relations in the Semantic Web.

BiodiversityWorld GRID Workshop NeSC, Edinburgh – 30 June and 1 July 2005 Palaeo- distribution modelling: Using the pollen record to validate climate change.

Biodiversity Data Exchange Using PRAGMA Cloud Umashanthi Pavalanathan, Aimee Stewart, Reed Beaman, Shahir Shamsir C. J. Grady, Beth Plale Mount Kinabalu.

Geospatial web services applied to Biodiversity Modelling Karla Donato Fook Advisors: Dr. Antônio Miguel V. Monteiro Dr. Gilberto Câmara Collaboration:

Species Distribution Modeling Alexandre Copertino Jardim Antonio Miguel Vieira Monteiro Karla Donato Fook Lúbia Vinhas Silvana Amaral Scientific Workshop.

May 2007 Registration Status Small Group Meeting 1: August 24, 2009.

SEEK Science Environment for Ecological Knowledge l EcoGrid l Ecological, biodiversity and environmental data l Computational access l Standardized, open.

Lifemapper II: Finding the Good Life Aimee Stewart James H. Beach, C.J. Grady, David A. Vieglias Biodiversity Institute, KU.

A new tool for fundamental niche modelling Renato De Giovanni Centro de Referência em Informação Ambiental, CrIA.

Ecological Niche Modeling Conceptual Workflows Deana Pennington University of New Mexico December 16, 2004.

1 openModeller Presentation Plan: Overview of openModeller OMWS: an open standard for distributed ecological niche modelling openModeller in relation to.

Mapping distributions of marine organisms using environmental niche modelling - AquaMaps K. Kaschner, J. Ready, S. Kullander, R. Froese and many more….INCOFISH,

July 3 rd, 2014 Charlotte Germain-Aubrey ECOLOGICAL NICHE MODELING: PRACTICAL.

On the D4Science Approach Toward AquaMaps Richness Maps Generation Pasquale Pagano - CNR-ISTI Pedro Andrade.

User scenario on Marine Biodiversity AquaMaps Pasquale Pagano National Research Council (CNR) – ISTI Italy.

Example projects using metadata and thesauri: the Biodiversity World Project Richard White Cardiff University, UK

DSN CCSDS SLE SM Prototype Plan Erik Barkley December 2006.

The EUBrazilOpenBio-BioVeL Use Case in EGI Daniele Lezzi, Barcelona Supercomputing Center EGI-TF September 2013.

WP3 Biomapping status quo WP3: NRM, CDF, CEFAS, DINARA, WCS.

LEEASP: A Linked Environment of Coordinated Multiple Views for Exploratory Analysis of Large-Scale Species Distribution Data Jianting Zhang, Dept. of CS,

EGI Technical Forum Madrid The EUBrazilOpenBio-BioVeL Use Case in EGI Daniele Lezzi – BSC EGI Technical Forum Madrid.

Lifemapper 2.0 Using and Creating Geospatial Data and Open Source Tools for the Biological Community Aimee Stewart, CJ Grady, Dave Vieglais, Jim Beach.

Index Building.

Building the Computational Infrastructure for DART

Gravity Control™: Is the simplest system for complex data search and management Introduces a new generation graphic user interface Handles large amounts.

Biodiversity and Climate Change Resource Interoperability for the GEOSS Interoperability Process Pilot Project Stefano Nativi

Expanding and Scaling Lifemapper Computations Using CCTools

Development of a Solid Spectroscopy Data Model (SSDM)

Ricardo Scachetti Pereira CRIA

MSDs and combined metadata reporting

Invasive Species.

Using Genetic Modeling of Sedimentary Parameters to Predict Species’ Geographic Range Shifts in Response to Environmental Change Alycia L. Stigall, Department.

Alycia L. Stigall, Department of Geological Sciences, Ohio University

Improving workflow at CNDDB

Presentation transcript:

Staging of the Ecological Niche Modeling Mammal Prototype Project Deana Pennington University of New Mexico December 14, 2004

GARP Climate Change Pipeline Training sample (d) GARP rule set (e) Test sample (d) Integrated layers (native range) (c) Species presence & absence points (native range) (a) EcoGrid Query EcoGrid Query Layer Integration Layer Integration Sample Data + A3 + A2 + A1 Data Calculation Map Generation Validation User Map Generation Environmental layers (changed range) (b) Integrated layers (changed range) (c) Model quality parameter (g) Native range prediction map (f) Environmental layers (native range) (b) Generate Metadata Archive To Ecogrid Selected prediction maps (h) Registered Ecogrid Database Registered Ecogrid Database Registered Ecogrid Database Registered Ecogrid Database Climate change prediction map (f)

Conceptual Workflow

GARP 3-actor Expect to switch to OpenModeler

GARP 3-actor w/data

GARP 3-actor w/ASC data

Conceptual Workflow: 1 species Species occurrence data IPCC present climate IPCC climate change Hydro1k terrain

Conceptual Workflow

Combining results within species  Best subset Concept workflows done Programming not yet started

Comparing results between climates  Dispersal models: No dispersal Full dispersal Continguous dispersal Concept workflows done Programming not yet started

Combining results between species  Macroanalysis Not yet started!

Timeline  Jan 2005: Generate prediction maps from a single model run  Xxx 2005: Compare model runs and pick best subset for a single species  Xxx 2005: Compare results of different climate scenarios  Xxx 2005: Run for multiple species

Get ready, get set…  Data preparation/grid (Tuesday)  Kepler training/minor workflow modifications (Wed)  Major new functionality (Thurs)