JEG DM: common work items Targets & ex post analysis Robustness Links with biodiversity Trends in selected modeled/measured parameters.

Slides:

Advertisements

Similar presentations

Net Environmental Benefit – Life Cycle Assessment of Algaculture at Wastewater Treatment Plants In this study, the net environmental benefit life cycle.

Advertisements

Biodiversity/HNV indicators and the CAP Zélie Peppiette Rural Development Evaluation Manager DG AGRI, European Commission UK seminar on HNV farming policy,

Cross Cutting Group B: Ammonia policy context and future challenges Chair: Till Spranger Rapporteur: Zbigniew Klimont Attendees: 13.

TFIAM, May 2005, BerlinTill Spranger Activities of ICP M&M and Results of the 21 st TF meeting Till Spranger.

THE EUROPEAN ENVIRONMENT STATE AND OUTLOOK 2010 Thomas Henrichs European Environment Agency.

Carbon Cycle and Ecosystems Important Concerns: Potential greenhouse warming (CO 2, CH 4 ) and ecosystem interactions with climate Carbon management (e.g.,

Modelling regional impacts of trends and policies on EU and global level: Integrating agriculture, land use, environmental and socio- economic aspects.

Indicators for policy support of atmosphere related environmental problems Robert Koelemeijer National Institute for Public Health and the Environment.

Biogeochemical Cycles. Biogeochemical: Chemical elements and molecules that cycle through the Earth’s systems and provide the building blocks for life.

Landuse change impact on the carbon balance at highly modified floodplains a systematic approach for combined emission reduction and landuse optimalization.

Chapter 3 Review.

Phosphorus Cycle Geochemical Cycles continued. Objectives: Describe the process of cycling phosphorus throughout environment. Describe the role that fertilizer.

 Is the main source of the climatic factors affecting ecosystem functioning and nutrients such as nitrogen, carbon and oxygen  Temperature and rainfall.

Department of Ecology and Environmental Science The Department of Ecology and Environmental Science, Umeå University, Sweden.

Computer modelling ecosystem processes and change Lesson 8 Presentation 1.

ICP Forests Common and Specific Workplan Items Outline according to CWIs Ex-post application Acidification/eutrophication under under different deposition.

Adam M. Davis Center for Geospatial Data Analysis Indiana University, Bloomington, IN Studying geological controls on succession in an old field: Progress.

What Causes Acid Precipitation?

ICP Waters International Cooperative Programme Assessment and Monitoring Effects of Air Pollution on Rivers and Lakes Activities and plans 2014 Gunnar.

LBG/LB 1 Working Group on Effects, ICPM&M-Coordination Center for Effects, J.-P.Hettelingh, Gothenburg, October 2004 New developments on air pollution.

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

The role of the Chequamegon Ecosystem-Atmosphere Study in the U.S. Carbon Cycle Science Plan Ken Davis The Pennsylvania State University The 13 th ChEAS.

Scientific Plan for LBA2 Changing the principle… LBA1 – structure by disciplines LBA2 – structure by issues –Foster integrative science and avoid the dicotomy.

1 Breakout Notes Session 3 Group 2 – (Global/Broad Scale/Regional) Integrated assessment models (socio-economic/biophysical) in relationship to land cover.

Coordination Centre for Effects Jean-Paul Hettelingh, EC4MACS kick off meeting, IIASA, 6-7 March 2007 EC4MACS Task 3: Ecosystem Impact Assessment by the.

Translation to the New TCO Panel Beverly Law Prof. Global Change Forest Science Science Chair, AmeriFlux Network Oregon State University.

Consultation meetings: Jan 2005, Brussels, consultation meeting on topics for FP7 2-3 Feb 06, Brussels, Symposium in memoriam Anver Ghazi 17 Feb 06, Text.

ICP Integrated Monitoring of Air Pollution Effects on Ecosystems - ICP IM Activities & Priorities Lars Lundin Swedish University of Agricultural.

Office of Science Office of Biological and Environmental Research DOE Workshop on Community Modeling and Long-term Predictions of the Integrated Water.

Focus on the Headwaters The Shenandoah Watershed Study / The Virginia Trout Stream Sensitivity Study Rick Webb Department of Environmental Sciences University.

Ecosystems. Ecosystem Ecology Ecosystem ecology is the study of how energy and materials are used in natural systems.

Critical Loads and Target Loads: Tools for Assessing, Evaluating and Protecting Natural Resources Ellen Porter Deborah Potter, Ph.D. National Park Service.

ICP Integrated Monitoring of Air Pollution Effects on Ecosystems - ICP IM Activities & Priorities Lars Lundin, chairman.

Integrated Assessment of Air Pollution and Greenhouse Gases Mitigation Janusz Cofala International Institute for Applied Systems Analysis (IIASA) Laxenburg,

Site Description This research is being conducted as a part of the Detritus Input and Removal Treatments Project (DIRT), a cross-continental experiment.

International and National Abatement Strategies for Transboundary air Pollution New concepts and methods for effect-based strategies on transboundary air.

Liebermann R 1, Kraft P 1, Houska T 1, Müller C 2,3, Haas E 4, Kraus D 4, Klatt S 4, Breuer L 1 1 Institute for Landscape Ecology and Resources Management,

Future challenges for integrated assessment modelling Markus Amann International Institute for Applied Systems Analysis (IIASA)

Investigating the Carbon Cycle in Terrestrial Ecosystems (ICCTE) Scott Ollinger * -PI, Jana Albrecktova †, Bobby Braswell *, Rita Freuder *, Mary Martin.

38 th Session of the Working Group on Strategies and Review, Item 3, Review of the 1998 protocol on heavy metals Coordination Centre for Effects(CCE),

Comments on the Research of Dr. Bob Musselman (Atmospheric Deposition Research) Allen S. Lefohn, Ph.D. A.S.L. & Associates Helena, Montana August 10, 2005.

Greater Manchester a resilient city region U-Score Essential 5 In partnership with: European Commission Humanitarian Aid & Civil Protection Salford United.

Chapter 5 Section 2 The Cycling of Materials. Objectives List the three stages of the carbon cycle. Describe where fossil fuels are located. Identify.

Ecology The study of how organisms interact with living and non- living aspects of their environment.

Calculate, map and used of critical loads and exceedances for acidity and nitrogen in Europe Professor Harald Sverdrup Chemical Engineering, Lund University,

CarboEurope: The Big Research Lines Annette Freibauer Ivan Janssens.

Scientific Plan Introduction –History of LBA Background –Definition of Amazon –7 Themes with achievements Motivation for Phase II –Unresolved questions.

Developments in Critical Loads and Dynamic Modelling Maximilian Posch Coordination Center for Effects (CCE) ICP Modelling & Mapping (ICP M&M) Working Group.

Biogeochemical Cycles. Objectives:  Identify and describe the flow of nutrients in each biogeochemical cycle.  Explain the impact that humans have on.

30th WGE, September 2011Berit Kvaeven, chairwoman ICP Waters International Cooperative Programme on Assessment and Monitoring Effects of Air Pollution.

STATE OF THE NORTH AMERICAN ENVIRONMENT CEC Council Session 26 June 2008.

Breakout Group 6 Ocean and Atmosphere Group Terrestrial Group.

Metrics and MODIS Diane Wickland December, Biology/Biogeochemistry/Ecosystems/Carbon Science Questions: How are global ecosystems changing? (Question.

JEG DM: progress in DM dynamic models became a commonly used tool, several ICPs and national focal points use DM DM provide timescale to expected changes.

How Ecosystems WorkSection 2 Section 2: The Cycling of Matter Preview Classroom Catalyst Objectives The Carbon Cycle How Humans Affect the Carbon Cycle.

Rocky Harris United Kingdom Revision of SEEA 2003 Options for the structure of Part III on applications.

Ecosystems & Human Interferences Chapter 48. Ecosystems & Human Interferences 2Outline The Nature of Ecosystems  Biotic Components  Autotrophs  Heterotrophs.

Matter cycles within ecosystems energy flows unidirectionally through ecosystems matter cycles at local and global scales movement of elements among various.

Chapter 5 Notes Environmental Science. Objectives  Describe the short-term and long-term process of the carbon cycle.  Identify one way that humans.

Joint Expert Group on Dynamic Modelling (JEG DM) current status

ICP Waters International Cooperative Programme Assessment and Monitoring Effects of Air Pollution on Rivers and Lakes Item 4 Recent results and updating.

US Environmental Protection Agency

Chapter 5 Objectives List the three stages of the carbon cycle.

Biodiversity and Climate Change

Nutrient Cycles in Nature Ch. 3-3

Nitrogen Cycling in the Terrestrial Environment

Welcome to Biology Class

Emissions What are the most sensitive parameters in emissions to improve model results (chemical species, spatio-temporal resolution, spatial distribution,

Joint Expert Group on Dynamic Modelling (JEG DM) current status

Tentative Ideas for Co-operation

Presentation transcript:

JEG DM: common work items Targets & ex post analysis Robustness Links with biodiversity Trends in selected modeled/measured parameters

JEG DM: Targets & ex-post 1. Two aspirational targets for 2050 that should be incorporated into policy: no further enrichment of nitrogen (N) in soils resulting from atmospheric deposition, and no further depletion of base cations from soils resulting from atmospheric deposition. 2. Target loads have been developed at the European scale. CIAM should undertake at least one run of optimization based on target loads.

JEG DM: Robustness 3. The lack of base cation deposition estimates remained problematic for the dynamic models on ecological impact. 4. For the revision of the 1999 Gothenburg Protocol, dynamic models must take climate change and related policies into account in predictions, as they systematically change the rate of key processes. As a consequence, current predictions with dynamic models might be too pessimistic.

JEG DM: Links with biodiversity 5. At N limited ecosystems N deposition leads to C sequestration. But, at very high N deposition plant growth is reduced. Biomass productivity could also be limited by other factors (e.g., trace nutrients, water, energy). Need further research on those factors. 6. Developments on model systems such as VSD+ and SPECIES; VEGontoVSD; BERN model; ForSAFE-VEG. We need a comparative study of the parameterization of the different models.

JEG DM: Links with biodiversity 7. Need to quantify existing biodiversity targets in relation to the model outputs. 8. Need to develop biological models to assess the impact of N as a nutrient for aquatic ecosystems. Need to enhance those aquatic models with internal process feedbacks related to climate change and land management. 9. We need data from sites with long-term records (decades) to evaluate and test dynamic models.

JEG DM: Trends JEG has nothing to report

JEG 11 (Oct 27 – , Sitges) planned call for data 2010/2011 DM of N as a nutrient in terrestrial systems DM of climate change/air pollution interactions, terrestrial carbon sequestration DM of biological response Contact Susie Beresford Agenda items include

JEG DM Acidification, Nitrogen as a nutrient and Heavy Metals

JEG DM: Acidification Acidification is considered, but current DM efforts seldom on acidification only There still is a room for further emission cuts of acidifying air pollutants. Dynamic models have provided arguments to continue efforts to reduce emissions.

Modelling nutrient N – major concern of JEG DM Major efforts are being undertaken to understand, document and model changes of plant communities by several strong research groups in a number of countries JEG provides discussion platform for modellers CCE plays major role in this development

JEG DM: nutrient N Increasing trends in DOC are probably linked to recovery from acidification. There were still uncertainties in understanding and modelling of N cycling. Some general trends were well predicted, but short-term variations still represented challenges at individual sites. The carbon-to-nitrogen ratio (C/N) of soil organic matter was one of the few indicators with some utility in predicting the ecosystem response to changing deposition, land use or climate.

JEG DM: nutrient N The carbon-to-nitrogen ratio (C/N) of soil organic matter was one of the few indicators with some utility in predicting the ecosystem response to changing deposition, land use or climate further development of DM of N not to use C/N to predict N leaching is necessary and is being undertaken

JEG DM: heavy metals 15. Metal accumulation and leaching could be approximately explained by deposition, weathering, speciation, soil acidity and run-off. DM difficult to validate due to the slow responses. 16. The leaching of Ni, Zn and Cd from soils responded relatively rapidly (decades) while Cu, Pb and Hg responded more slowly (centuries). Key controls included metal deposition, acidity status and soil organic matter.

JEG DM: heavy metals 17. Nevertheless, JEG emphasized the importance of ensuring that policy continued to control the release of metals into the environment. Release of heavy metals from soil was a long-term process and that should not detract from efforts to reduce emissions.