Soils to Satellites. NCRIS Capabilities Well Placed NCRIS capabilities have access to: Vast volumes of Data (uniformly and non-uniformly structured) High.

Slides:

Advertisements

Similar presentations

City Innovation Lab : Manchester Computer Science 30 th June 2010.

Advertisements

User needs assessment and preparing a dissemination plan John Tann Kolkata, June 2011 The Atlas is funded by the Australian Government.

GEO Work Plan Symposium 2011 Global Biodiversity Observation (DS-14)

Smart Qualitative Data: Methods and Community Tools for Data Mark-Up SQUAD Libby Bishop Online Qualitative Data Resources: Best Practice in Metadata Creation.

Thinking Skills and Personal Capabilities Unit 1

Soils to Satellites Logos used with consent. Content of this presentation except logos is released under TERN Attribution Licence v1.0

Maines Sustainability Solutions Initiative (SSI) Focuses on research of the coupled dynamics of social- ecological systems (SES) and the translation of.

EWater Road Show 21 Feb – Part 3 of 5 Dr Peter Wallbrink Source Project Director, eWater Building the new integrated modelling system for Australia.

TERN Eco-informatics – Overview for DCRG Craig Walker Eco-informatics Facility Director.

1 A Case Study in E- Science: Building Ecological Informatics Solutions for Multi-Decadal Research ARL/CNI 2008 Conference Washington, DC 16 October 2008.

Environmentally Sustainable Australia Atlas of Living Australia presentation to Environmentally Sustainable Australia Expert Working Group Donald Hobern,

SHaRED Submission, Harmonisation and Retrieval of Ecological Data By Martin Pullan.

Atlas of Living Australia launch Donald Hobern Melbourne Museum, 28 th of July 2010 The Atlas is funded by the Australian Government.

How can the ALA help BIGnet? Citizen Science at work Piers Higgs Citizen Science Team Lead Sydney, 3 rd April, 2011 The Atlas.

Atlas of Living Australia Sharing Biodiversity Knowledge Miles Nicholls (Data Manager) – The Atlas is funded.

Longfellow Middle School Science Program Inspiring excellence and meeting the needs of all learners.

TERN Eco-informatics – Managing and delivering ecological research data now and into the future Craig Walker Eco-informatics Facility Director Logos used.

Longfellow Middle School Science Program Meeting the needs of all learners Inspiring excellence and.

What Needs to be Done? Environmental Impacts Carol Turley and Jerry Blackford Plymouth Marine Laboratory, UK CCS R & D Workshop, Royal Academy of Engineering,

Thee-Framework for Education & Research The e-Framework for Education & Research an Overview TEN Competence, Jan 2007 Bill Olivier,

Eye on Earth (EoE), Citizen Science and the Invasive Alien Species project Malene Bruun NRC’s for EIS June 17, 2011.

Scotland’s Environment Web Aims to be the “Trusted” gateway to everything you want to know.

SoE Reporting in Scotland Scotland’s Environment Web LIFE Project Joanna Muse Principal.

Summary of Breakout Session 1.2 GEO Societal Benefit Areas (Chair: Antonio Bombelli) Coordinator of the GEO Task CL-02 “Global Carbon Observations and.

SEEK: Enabling Ecology and Biodiversity Science Through Cyberinfrastructure.

Meeting Discussions: Day 1  Issues related to data availability, interoperability and sharing in the region  Proposals on how to share biodiversity information.

Partnerships and collaboration Working together: good for business, good for research I work for business.gov.au but also thought it would be a good opportunity.

Introduction to OBIS-USA Biological Data, Applications, & Relationships March 14, 2011.

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

Prepared for the 3rd SBB telecon 20 Mar 2012 Michele Walters, BI-01 task coordinator.

Dimitris Koureas, PhD Natural History Museum London Linking layers of biodiversity data: Informatics challenges for the long tail research RDA - Long Tail.

Science themes: 1.Improved understanding of the carbon cycle. 2.Constraints and feedbacks imposed by water. 3.Nutrient cycling and coupling with carbon.

National Spatial Data Infrastructure The Spatial Information Services Stack Dr Robert Woodcock.

U.S. Department of the Interior U.S. Geological Survey A vision for a global community Linda Gundersen Director Science Quality and Integrity US Geological.

A framework to support collaborative Velo: Knowledge Management for Collaborative (Science | Biology) Projects A framework to support collaborative 1.

NEON’S COLLECTIONS PROGRAM: DEVELOPING A COLLABORATIVE NETWORK OF MUSEUMS AND A RESOURCE IN SUPPORT OF BIODIVERSITY RESEARCH. Michael W. Denslow Assistant.

ANDS and its Services Phenomics Data & Informatics Workshop 2010, Friday, 23rd April 2010.

Introducing Australia’s Terrestrial Ecosystem Research Network: linking disciplines for better environmental outcomes. Nikki Thurgate.

National Ecological Observatory Network

DISCIPLINARY PERSPECTIVE BIOLOGY/ECOLOGY Workshop on Cyberinfrastructure for Environmental Research and Education November 1, 2002.

The Atlas of Living Australia Infrastructure for biodiversity research Evanthia Karpouzli Sao Jose dos Campos, 30 September.

W HAT IS I NTEROPERABILITY ? ( AND HOW DO WE MEASURE IT ?) INSPIRE Conference 2011 Edinburgh, UK.

Criterion 1: Conservation of Biological Diversity Indicator Refinement: What is the state of Indicator Science? 1. Overview of the Criterion 2. Review.

National Institute for Agro-Environmental Sciences National Institute for Agro-Environmental Sciences Agro-Environmental Sciences and Collaboration work.

Page 1 Strategic Foresight Initiative Summary Briefing Emergency Management Higher Education Conference June 6, :30 – 11:30 am.

UNCLASS1 Dr. Gene Whitney Assistant Director for Environment Office of Science and Technology Policy Executive Office of the President WISP Meeting - July.

Third Project cycle of the Benefit- sharing Fund Window 3 Co-development and transfer of technologies projects

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

Podcast Delivery Project Proposal Debbie Loeffler Online Learning 522 Professor Ann Randall.

Context: The Strategic Plan for Establishing the Network Integrated Biocollections Alliance Judith E. Skog, Office of the Assistant Director, Biological.

Fire Emissions Network Sept. 4, 2002 A white paper for the development of a NSF Digital Government Program proposal Stefan Falke Washington University.

TERN & the Ecoinformatics Facility Who Are We? DOI’s Within TERN Ecoinformatics.

Atlas of Living Australia. One infrastructure - many systems What is the ALA? - an open infrastructure Spain’s “ALA” Web Services click on images to go.

Science Enabled by New Hyperspectral Observations Related to Physiology and Functional Types (HyspIRI) Dar Roberts, Frank Muller-Karger Reiterate Break.

Project number: ENVRI and the Grid Wouter Los 20/02/20161.

SUSTAINING ENVIRONMENTAL CAPITAL (SEC) INITIATIVE Providing resources for applying ecosystem services in public land & water management.

Longfellow Middle School Science Program Inspiring Excellence and Meeting the needs of all learners.

Application of NASA ESE Data and Tools to Particulate Air Quality Management A proposal to NASA Earth Science REASoN Solicitation CAN-02-OES-01 REASoN:

1 - What are the local, regional, and continental-scale exchanges of carbon, nitrogen, and reactive species? What are their relationships to underlying.

EGI-InSPIRE RI EGI-InSPIRE EGI-InSPIRE RI EGI Business Engagement Program for SMEs Javier Jiménez Business Development.

Oceans Policy Science Advisory Group Providing a framework for our Marine Nation Dr Kate Wilson June 2009.

CONTEXT FOR THE REVIEW Gary Matlock, Ph.D. Deputy Assistant Administrator for Programs and Administration (A) Office of Oceanic & Atmospheric Research.

The National Ecological Observatory (NEON) Brian Wee, Ph.D. Chief of External Affairs, NEON, Inc. 1.

Supporting Research on Biodiversity: LifeWatch on the Cloud

Organising data to represent biodiversity

Sustainable Water Future Programme

Biodiversity Informatics 101

Brian Matthews STFC EOSCpilot Brian Matthews STFC

Atlas of Living Australia Sharing Biodiversity Knowledge

Presentation transcript:

Soils to Satellites

NCRIS Capabilities Well Placed NCRIS capabilities have access to: Vast volumes of Data (uniformly and non-uniformly structured) High levels of Technical Expertise Advanced Technology & Technical Infrastructure.

ALA and ÆKOS – data comparison Systematics – classification Breadth of life domains Rich spatial layers for location and environmental context and analysis 36m records - Museums and Herbaria, State agencies, NRMs, Citizen science Concentrates on species and specimen data and profiles Systematics – classification Breadth of life domains Rich spatial layers for location and environmental context and analysis 36m records - Museums and Herbaria, State agencies, NRMs, Citizen science Concentrates on species and specimen data and profiles Rich plot-based data Depth of single domain Contextual environmental observations Semantically federated and integrated complex data Output flexibility (first pass to greater detail) Describes biodiversity look & feel (ecosystem dynamics) Rich plot-based data Depth of single domain Contextual environmental observations Semantically federated and integrated complex data Output flexibility (first pass to greater detail) Describes biodiversity look & feel (ecosystem dynamics) Biodiversity Data - ALA Ecological Data – ÆKOS AEKOS supports rich, plot-based ecological data and leverages ALA complementary expertise in systematics, biodiversity and spatial platforms

Soils to Satellites Greater Synergies Possible Greater synergies between NCRIS capabilities possible by: Increasing cross-capability collaboration and communication Improving interoperability between NCRIS systems (including integration with non- uniformly structured data e.g. ecological & biodiversity data) Gaining familiarity of each others capabilities. Leverages existing and mature ALA web services infrastructure

Soils to Satellites Soils to Satellites addresses these needs Incubator project to: demonstrate integration of disparate data independent of structure and standards collaboration and cooperation between NCRIS capabilities Value and power of ALA web services contribute to and enrich ANDS Research Data Australia platform generate real world feedback for future iterations.

Soils to Satellites Project Overview Australian National Data Service (ANDS) Applications Project July 2012 – June 2013 Project Partners: TERN Eco-informatics Atlas of Living Australia (CSIRO) Collaborators: TERN MSPN/TREND TERN AusCover

Soils to Satellites Integration of disparate data TREND & Ausplots ecological data (ÆKOS, CSIRO NSA) Plot-based plant community data Soil characterisation data - structure, pH,nutrients, carbon etc Atlas of Living Australia (spatially represented data) Species occurrence and distribution data Environmental characteristics TERN AusCover (biophysical remote sensing data) multi-spectral characteristics of site. TREND genomics data (BPA, SARDI, BGI, BOLD) Opaque blobs of genomics data including barcode sequences, Soil Metagenomics data, isotope data

Soils to Satellites Collaboration & Co-operation - bringing together technical expertise and technological infrastructure for mutual benefit.

Soils to Satellites Now 2050 Benefits Enables plot and data to be explored in new ways Exposes relationships not previously possible. Addresses science questions Community composition and turn-over along environmental gradients Genetic differentiation and flow Understanding environmental drivers Current and predicted future species distributions Climate resilient and sensitive communities/refugia.

Soils to Satellites Specific System Capabilities Discover study locations using a wide range of criteria Explore data from these locations, including data from multiple site visits Compare survey, biodiversity and environmental data between study locations and visits Extract data for offline analysis Provide assistance to researchers in selecting relevant data depending on the research question

Visualisation Outputs Single Study Location Summary

Visualisation Outputs Multiple Study Location Comparison Number of distinct plant species (67 study locations - Ausplots) With corresponding rainfall comparison (ALA)

Visualisation Outputs Multiple Study Location Summary

Visualisation Outputs Single Study Location Visit Summary

Visualisation Outputs Multiple Study Location Visit Comparisons

Soils to Satellites A live system!

This project is supported by the Australian National Data Service (ANDS) ANDS is supported by the Australian Government through the National Collaborative Research Infrastructure Strategy Program and the Education Investment Fund (EIF) Super Science Initiative