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Peat core in plastic gutter
06708
184
East Dunbartonshire Mosses
The peat core is emptied from the corer into a plastic gutter to allow examination and sampling. In the middle of this picture can be seen a section of peat where the climate dried out for a number of decades, allowing decomposition of the peat in the aerobic conditions, whereas on either side of this section, the preserved remains of sphagnum moss and sedges can be found, preserved in the anaerobic conditions of the wet peat.
09 May 2015
Peat core in plastic gutter
06707
184
East Dunbartonshire Mosses
The peat core is emptied from the corer into a plastic gutter to allow examination and sampling. In the middle of this picture can be seen a section of peat where the climate dried out for a number of decades, allowing decomposition of the peat in the aerobic conditions, whereas on either side of this section, the preserved remains of sphagnum moss and sedges can be found, preserved in the anaerobic conditions of the wet peat.
09 May 2015
Peat core in plastic gutter
06706
184
East Dunbartonshire Mosses
The peat core is emptied from the corer into a plastic gutter to allow examination and sampling. The peat core can be used for the analysis of wind-borne pollen, largely tree pollen, but also of grasses, sedges and heather. Pollen analysis allows the interpretation and reconstruction of palaeoclimates and paleovegetation, which has relevance to understanding modern climate change.
09 May 2015
Peat core in plastic gutter
06705
184
East Dunbartonshire Mosses
The peat core is emptied from the corer into a plastic gutter to allow examination and sampling. The peat core can be used for the analysis of wind-borne pollen, largely tree pollen, but also of grasses, sedges and heather. Pollen analysis allows the interpretation and reconstruction of palaeoclimates and paleovegetation, which has relevance to understanding modern climate change.
09 May 2015
Demonstrating a peat sample
06704
184
East Dunbartonshire Mosses
Dr Richard Tipping demonstrating a peat sample, Lenzie Moss. The peat core can be used for the analysis of wind-borne pollen, largely tree pollen, but also of grasses, sedges and heather. Pollen analysis allows the interpretation and reconstruction of palaeoclimates and paleovegetation, which has relevance to understanding modern climate change.
09 May 2015
Examining the peat core
06703
184
East Dunbartonshire Mosses
Dr Richard Tipping examining the peat core. The peat core can be used for the analysis of wind-borne pollen, largely tree pollen, but also of grasses, sedges and heather. Pollen analysis allows the interpretation and reconstruction of palaeoclimates and paleovegetation, which has relevance to understanding modern climate change.
09 May 2015
Examining the peat core
06702
184
East Dunbartonshire Mosses
Dr Richard Tipping examining the peat core. The peat core can be used for the analysis of wind-borne pollen, largely tree pollen, but also of grasses, sedges and heather. Pollen analysis allows the interpretation and reconstruction of palaeoclimates and paleovegetation, which has relevance to understanding modern climate change.
09 May 2015
Opening the peat corer
06701
184
East Dunbartonshire Mosses
Dr Richard Tipping opening the peat corer. The peat core can be used for the analysis of wind-borne pollen, largely tree pollen, but also of grasses, sedges and heather. Pollen analysis allows the interpretation and reconstruction of palaeoclimates and paleovegetation, which has relevance to understanding modern climate change.