A Micro and Mesocosm Approach to Understanding the Response of Branched GDGTs to Environmental Perturbation
Abstract
Branched glycerol dialkyl glycerol tetraethers (brGDGTs) are membrane lipids with 15 known structures. Thought to be synthesized by bacteria, they are found in peatlands, soils, near-shore marine sediments and lakes. Previous studies have reported a correlation between the number and position of methyl groups and cyclopentane moieties in these lipids with environmental factors such as pH and temperature, leading to the creation of the methylation and cyclisation indices (MBT and CBT respectively). Although an empirical relationship between these structural modifications and environmental conditions has been described, the source organism for these molecules remains unknown. Lacking pure cultures of brGDGT producing bacteria, a different approach is necessary to study their response to environmental perturbations under controlled conditions. To this end, we studied the production of brGDGTs in water from two fishing lakes in Arizona using a series of microcosms, comprised by 1L flasks filled with environmental water; and mesocosm experiments, where two 20L tanks were filled with either lake water or lake water and synthetic sediments. This experimental design allowed us to modify environmental factors while preserving the natural conditions of the sample. Our experiments point to a production of brGDGTs on the suspended particulate matter in the water column, which appears to contribute to some extent to the presence of this molecules on lake sediments. Furthermore, we observed a shift in the ratio between 5' and 6' isomers related to both the presence of a carbon source and temperature. Limited oxygen availability appears to correlate with higher brGDGT concentration. Notably, we find that methylation decreases with increasing temperature in our experiments at a rate that is roughly in agreement with empirical observations. To our knowledge, these experiments provide the first evidence of growth and alteration of brGDGTs under laboratory conditions, which could be used to build better models to interpret this paleoclimate proxy in lacustrine sediments.
- Publication:
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AGU Fall Meeting Abstracts
- Pub Date:
- December 2017
- Bibcode:
- 2017AGUFMPP11A1025M
- Keywords:
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- 0424 Biosignatures and proxies;
- BIOGEOSCIENCES;
- 0454 Isotopic composition and chemistry;
- BIOGEOSCIENCES;
- 0473 Paleoclimatology and paleoceanography;
- BIOGEOSCIENCES;
- 9820 Techniques applicable in three or more fields;
- GENERAL OR MISCELLANEOUS