1 / 14

JEG DM: common work items

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

phong
Download Presentation

JEG DM: common work items

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

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

  2. 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: Targets & ex-post

  3. 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: Robustness

  4. 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

  5. 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: Links with biodiversity

  6. JEG has nothing to report JEG DM: Trends

  7. JEG 11 (Oct 27 – 29 2010, Sitges) Agenda items include • 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 (sjbe@ceh.ac.uk)

  8. JEG DM Acidification, Nitrogen as a nutrient and Heavy Metals

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

  10. 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

  11. 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.

  12. 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

  13. 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.

  14. JEG DM: heavy metals • 17. Nevertheless, JEG emphasized the importance of ensuring thatpolicy 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.

More Related