Chironomids, temperature and numerical models: a reply to Seppala
We reply to comments by Seppala (2001) concerning the suitability of the surface-water temperature measurements and mean July air temperature estimates used by Olander et al. (1999) to derive quantitative chironomid-temperature transfer functions. We use new data for water temperatures based on two-...
| Main Authors: | , , , |
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| Format: | Article in Journal/Newspaper |
| Language: | unknown |
| Published: |
ARNOLD, HODDER HEADLINE PLC
2001
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| Subjects: | |
| Online Access: | http://discovery.ucl.ac.uk/156719/ |
| Summary: | We reply to comments by Seppala (2001) concerning the suitability of the surface-water temperature measurements and mean July air temperature estimates used by Olander et al. (1999) to derive quantitative chironomid-temperature transfer functions. We use new data for water temperatures based on two-hourly recordings from thermistors installed in 32 lakes and air-temperature data from an automatic weather station at one lake to refute Seppalas accusations that our field data are unsatisfactory. We also respond to Seppala's suggestions about factors influencing chironomid distribution and abundance and suggest that there is a serious confusion of temporal and spatial scales between Seppala's ideas and the Olander et al. study. We attempt to explain the underlying logic behind empirical transfer functions that form a major part of Holocene quantitative environmental reconstructions and the major assumptions behind such transfer functions as Seppala appears not to understand the basis or the assumptions of such widely used numerical models in palaeolimnology. We respond to Seppala's comments that lakewater pH and distance beyond tree-line have been inadequately measured and answer his erroneous understanding that a helicopter was used to facilitate lake sampling. We briefly consider Seppala's suggestion that a helicopter can totally mix the surface water of a lake for many hours. |
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