Terrestrial TDC

In addition, freshwater and terrestrial contaminants datasets have been compiled in the SynCon database. International data centres for ozone/UV, arctic ocean acidification, permafrost and other key AMAP-relevant data exist and their use is encouraged.

AMAP Thematic Data Centres compile data from relevant monitoring and research activities and make them available under strict conditions that protect the rights of data originators. AMAP TDCs are located at established centres with appropriate expertise and facilities for conducting the types of international data handling required. For more information, please visit the main AMAP website.

Below are projects that have specified Terrestrial TDC as one of the data repositories for the AMAP Project Directory. To see the full list of AMAP Thematic Data Centres, see the AMAP TDC list.

It is also possible to browse and query the full list of projects.

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Displaying: 1 - 14 of 14
1. AMAP 2011 and 2012 core HM and POP programme Faroe Islands

The project is a continuation of the monitoring activities of the AMAP POPs and Heavy metals programme in marine, terrestrial and freshwater environments of the Faroe Islands. The aims of the programme is to establish data for timetrend and spatial assessments as well as providing data of importance in human health risk assessment on mercury and POPs. The programme incorporates analyses on pilot whale, cod, black guillemots from the marine environment, sheep and hare from the terrestrial environment and arctic char from the freshwater environment. The compounds analysed are "legacy" POPs and mercury, cadmium and selenium. In addition, PBDEs are analysed in pilot whale tissues to add to previously established time-trend series.

Exposure Fish Heavy metals Long-range transport Marine mammals Organochlorines PCBs Persistent organic pollutants (POPs) Pesticides Seabirds Spatial trends Temporal trends Terrestrial mammals
2. AMAP 2013 and 2014 core HM and POP programme Faroe Islands

The project is a continuation of the monitoring activities of the AMAP POPs and Heavy metals programme in marine, terrestrial and freshwater environments of the Faroe Islands. The aims of the programme is to establish data for timetrend and spatial assessments as well as providing data of importance in human health risk assessment on mercury and POPs. The programme incorporates analyses on pilot whale, cod, and black guillemots from the marine environment, sheep from the terrestrial environment and arctic char from the freshwater environment. The compounds analysed are "legacy" POPs and mercury, cadmium and selenium. In addition, PFAS and PBDEs were analysed in pilot whale tissues, to add to previously established time-trend series.

Exposure Fish Heavy metals Long-range transport Marine mammals Organochlorines PCBs Persistent organic pollutants (POPs) Pesticides Seabirds Spatial trends Temporal trends Terrestrial mammals
3. AMAP 2017 and 2018 core HM and POP programme Faroe Islands

The project is a continuation of the monitoring activities of the AMAP POPs and Heavy metals programme in marine, terrestrial and freshwater environments of the Faroe Islands. The aims of the programme is to establish data for timetrend and spatial assessments as well as providing data of importance in human health risk assessment on mercury and POPs. The programme incorporates analyses on pilot whale, cod, black guillemots and Northern fulmars from the marine environment, sheep from the terrestrial environment and arctic char from the freshwater environment. The compounds analysed are "legacy" POPs and mercury, cadmium and selenium. In addition, PFAS and HBDCs are analysed in pilot whale as a continuation of timetrend analyses, initialized in previous projects, and PFAS are analysed in Northern fulmar tissues from the last ten years.  

Exposure Fish Heavy metals Long-range transport Marine mammals Organochlorines PCBs Persistent organic pollutants (POPs) Pesticides Seabirds Spatial trends Temporal trends Terrestrial mammals
4. AMAP 2015 and 2016 core HM and POP programme Faroe Islands

The project is a continuation of the monitoring activities of the AMAP POPs and Heavy metals programme in marine, terrestrial and freshwater environments of the Faroe Islands. The aims of the programme is to establish data for timetrend and spatial assessments as well as providing data of importance in human health risk assessment on mercury and POPs. The programme incorporates analyses on pilot whale, cod, and black guillemots from the marine environment, sheep from the terrestrial environment and arctic char from the freshwater environment. The compounds analysed are "legacy" POPs and mercury, cadmium and selenium. In addition, a retrospective analysis of HBCD in pilot whale tissues, going back to 1986, is part of the project.

Exposure Fish Heavy metals Long-range transport Marine mammals Organochlorines PCBs Persistent organic pollutants (POPs) Pesticides Seabirds Spatial trends Temporal trends Terrestrial mammals
5. AMAP 2009 and 2010 core HM and POP programme Faroe Islands

The project is a continuation of the monitoring activities of the AMAP POPs and Heavy metals programme in marine, terrestrial and freshwater environments of the Faroe Islands. The aims of the programme is to establish data for timetrend and spatial assessments as well as providing data of importance in human health risk assessment on mercury and POPs. The programme incorporates analyses on pilot whale, cod, black guillemots from the marine environment, sheep and hare from the terrestrial environment and arctic char from the freshwater environment. The compounds analysed are "legacy" POPs and mercury, cadmium and selenium. In addition, a retrospective analyses of PFOS in pilot whale tissues going back as far as possible (ie.1986) is part of the project.

Organochlorines PCBs Heavy metals Fish Long-range transport Spatial trends Terrestrial mammals Exposure Persistent organic pollutants (POPs) Seabirds Pesticides Temporal trends Marine mammals
6. AMAP Core Monitoring Programme 2004-2005

The project studies the development through time of contaminants (heavy metals and organic pollutants) in animals in Greenland.

Organochlorines Heavy metals Fish Persistent organic pollutants (POPs) Seabirds Temporal trends
7. Environmental contaminants in Peregrine Falcons in Alaska, USA

Contaminants were examined for trends over time, spatial variation based on disparate breeding areas, and relationships with measures of productivity. Most organochlorines and metals declined over time. Mercury was the only contaminant with possibly increasing concentrations in eggs. Egg and feather samples collected in 2000 will provide more information on mercury trends and effects. This study embodies 20 years of data on environmental contaminants in peregrine falcons nesting in Alaska.

Biological effects Organochlorines PCBs Heavy metals Persistent organic pollutants (POPs) Pesticides Temporal trends
8. Persistent Toxic Substances (PTS), Food Security and Indigenous Peoples of the Russian North

Brief: Assessment of the significance of aquatic food chains as a pathways of exposure of indigenous peoples to PTS, assessment of the relative importance of local and distant sources, and the role of atmospheric and riverine transport of PTS in Northern Russia. Project rationale and objectives: (1) To assess levels of Persistent Toxic Substances (PTS) in the environment in selected areas of the Russian North, their biomagnification in aquatic and terrestrial food chains, and contamination of traditional (country) foods that are important components of the diet of indigenous peoples. (2) To assess exposure of indigenous peoples in the Russian North to PTS, and the human health impacts of pollution from local and remote sources, as a basis for actions to reduce the risks associated with these exposures. (3) To inform indigenous peoples about contamination by PTS of their environment and traditional food sources, and empower them to take appropriate remedial actions to reduce health risks. (4) To enhance the position of the Russian Federation in international negotiations to reduce the use of PTS, and to empower the Russian Association of Indigenous Peoples of the North (RAIPON) to participate actively and fully in these negotiations. Project activities to achieve outcomes: (1) Inventory of local pollution sources in the vicinities of selected indigenous communities. (2) Survey of levels and fluxes of PTS in riverine and coastal marine environment important for indigenous peoples living in these environments and using them for their subsistence; and assessment of fluxes of PTS to these environments via selected rivers and the atmosphere. (3) Dietary surveys of selected indigenous communities. (4) Study of biomagnification, based on measurements of selected PTS in representative species in food chains important for the traditional diet of indigenous populations. (5) Survey and comparative assessment of pollution levels of the indigenous and general population in selected areas. (6) Dissemination of results to all relevant stakeholders.

GEF Catchment studies Contaminant transport Caribou Exposure Reindeer Dioxins/furans Sediments Pesticides persistent toxic substances Human intake Marine mammals Pathways Organochlorines PTS PCBs Soils Heavy metals Fish Indigenous people PAHs Long-range transport Spatial trends Terrestrial mammals Arctic Persistent organic pollutants (POPs) Local pollution Seabirds Food webs Data management Diet Human health
9. Human and chemical ecology of Arctic pathways by marine pollutants

1. Research area # 2 in the 1998/99 Announcement of Opportunity by CIFAR, "Study of anthropogenic influences on the Western Arctic/Bering Sea Ecosystem", and 2. Research area #4 in the 1998/99 Announcement of Opportunity by CIFAR, "Contaminant inputs, fate and effects on the ecosystem" specifically addressing objectives a-c, except "effects." a. "Determine pathways/linkages of contaminant accumulation in species that are consumed by top predators, including humans, and determine sub-regional differences in contaminant levels..." b. "Use an ecosystems approach to determine the effects of contaminants on food web and biomagnification." c. "Encourage local community participation in planning and implementing research strategies." The objectives of Phase I, Human Ecology Research are to: 1. Document reliance by indigenous arctic marine communities in Canada, Alaska and Russia on arctic resources at risk from chemical pollutants; and, 2. Incorporate traditional knowledge systems of subsistence harvesting. The human ecology components of the project were conducted within the frameworks of indigenous environmental knowledge and community participation. Using participatory mapping techniques, semi-structured interviews and the direct participation of community members in research design, data collection and implementation, research and data collection on the human ecology of indigenous arctic marine communities was undertaken in the communities of Holman, NWT (1998), Wainwright, Alaska (1999), and is underway in Novoe Chaplino, Russia. (2000).

Biology Organochlorines PCBs Fish Indigenous people Contaminant transport Stable isotopes Exposure Arctic Persistent organic pollutants (POPs) Food webs Ecosystems Marine mammals
10. Monitoring POPs and heavy metals in the merlin (Falco columbarius)

To monitor levels of pollutants in merlin by analysis of POPs and heavy metals in eggs and feathers. /Feathers and addled eggs of merlin were collected in 1992, 1993, 1994, 1999 and 2000 for chemical analysis of POPs and heavy metals. Comparisons with eggs from museum collections show that there has been a significant shell thinning in eggs of Norwegian merlins. From 1947 up to 1990 the eggs were on average ca. 15% thinner than normal and after 1990 the thinning has been ca. 10%. There are still high concentrations of DDE to reduce reproductive output in some cases. The PCB levels are low compared to the DDE levels and the concentrations of other chlorinated hydrocarbons are also low. Results from mercury analyses indicate possible effects on breeding performance in some adults.

Biological effects Organochlorines PCBs Heavy metals Long-range transport Spatial trends Contaminant transport merlin Persistent organic pollutants (POPs) Food webs Pesticides Temporal trends terrestrial birds
11. Monitoring of bioaccumulating compounds in terrestrial environment and environmental specimen banking

The monitoring is focused on risk assessment of LRTAP -type substances in terrestrial foodchains of the Boreal and subarctic environment. The concentration levels in precipitation, in the soil humus and in the indicator species (e.g. red woodants, common shrew) are studied annually in the seven areas locating in the Southern, Middle and Northern Finland. Possible gradients and changes in concentration levels between the Southern and Northern environments will be a part of the base data for risk assessment and pollution development in Finland.

Biology Organochlorines PCBs Heavy metals Long-range transport Contaminant transport Terrestrial mammals Persistent organic pollutants (POPs) Reindeer Pesticides Ecosystems
12. Monitoring of residues in animal tissues

According to the national residue control programme heavy metals (lead, cadmium, mercury) and organochlorine compounds (HCH, HCB, DDT, PCB, etc) are analyzed from the samples. Investigations are done according to the Council Directive 96/23/EC.

PCBs Heavy metals Persistent organic pollutants (POPs) Reindeer Diet Human health Human intake
13. AMAP phase II- Faroe Islands, 2000, core program

The project is meant to cover specific parts of AMAP phase II in the Faroe Islands. The project includes species from the marine and freshwater environment as well as biota from the terrestrial subprogram. The species chosen for the project are to be analysed for the environmental toxins that were termed essential in the guidelines of the circumpolar programme, but minor adjustments may occur. The selection of species to be analysed have been made so as so to elucidate the burden of contaminants in the local and often also traditional food, and at the same time it has been important to ensure comparability between countries in the AMAP area. The biota chosen are pilot whale, black guillemot, hare, sheep and lamb, arctic char and sculpin. In addition to this core program where the above-mentioned are analysed for the limited set of pollutants, certain special tasks have been planned. Examples on such special tasks are the analysis of mercury in sediment core profiles and investigation of the dioxin and POP burden in cows milk.

PCBs Heavy metals Fish Terrestrial mammals Persistent organic pollutants (POPs) Seabirds Pesticides Temporal trends Marine mammals
14. Compiling and summarizing Persistent Organic Pollutant (POPs) data from the U.S. Arctic for the Arctic Monitoring & Assessment Programme (AMAP)

Objectives: 1. Locate and assemble scientific data from the U.S. Arctic on the concentrations and effects of POPs in all compartments (e.g., marine and terrestrial biota, abiotic substrates) of the Arctic. 2. Evaluate, analyze and summarize these scientific data from the U.S. Arctic into text suitable for inclusion in a new (second) AMAP publication on POPs. 3. Disseminate the summarized information via a U.S. AMAP Internet page that is directly linked to the current International AMAP Internet page. Summary (Abstract): The Arctic Monitoring and Assessment Programme (AMAP) was established in 1991 and given the responsibility of monitoring the concentrations and assessing the effects of selected anthropogenic pollutants in all compartments of the Arctic. The first AMAP assessment report, published in 1998, points out gaps in our current understanding of contaminant inputs, their transport processes and food web interactions. In addition, the AMAP report noted a serious lack of information about persistent organic pollutants (POPs) in the U.S. and Russian Arctic. Thus, the recommendations of the first AMAP report were to: monitor spatial distribution, contaminant levels and biological effects of POPs; improve the understanding of the adverse effects of POPs on human populations; and fill existing data gaps, specifically in the U.S. and Russia. In this work, we plan to identify sources of scientific information (e.g., published reports, datasets) on POPs in the U.S. Arctic and obtain these data for AMAP. Once data sources are identified, a small group of scientific experts will be assembled for a workshop to determine if any pertinent sources have been overlooked and to give advice on how best to evaluate, analyze, summarize and disseminate the information obtained. A working database will be designed so that the data and scientifically important findings or conclusions from each study can be organized and evaluated. Data will be analyzed statistically, as appropriate, to determine spatial and temporal trends. The data and scientific findings that have been collected and analyzed will then be summarized into text, for inclusion in the next AMAP publication on POPs. This major effort of synthesizing the existing data from the U.S. Arctic will ensure that the AMAP report adequately presents the accomplishments of U.S. scientists and research programs. The written publication and the summarized U.S. POPs data will also be presented as a U.S. AMAP Internet page linked to the International AMAP Internet page.

Persistent organic pollutants (POPs) SEARCH Data management assessment Phase II