Abstract
Here, we present the first detailed study on diffuse CO2 degassing in the lakes in the Western Group (Corvo and Flores islands) of the Azores archipelago. This research is of interest in order to determine (1) the overall CO2 emission from such lakes, as volcanic lakes are often underrepresented in the databases of these water bodies, and (2) the diffuse CO2 degassing estimates in active volcanic areas such as the Azores. The lake waters on Corvo and Flores islands are mainly of the Na–Cl type, which is likely caused by the lakes’ sea salt signatures, arising from nearby seawater spraying; however, a few samples show evidence of slight alkali earth metal and bicarbonate enrichments in the lake waters, suggesting a contribution of water–rock interaction. In this study, diffuse CO2 flux measurements were taken using the accumulation chamber method, and statistical analyses utilizing the graphical statistical approach (GSA) and sequential Gaussian simulation (sGs) were conducted on the CO2 flux data, showing that the CO2 flux values measured in these lakes were relatively low (0.0–18.6 g m−2 d−1). The results seem to indicate that there is a single source of CO2 (a biogenic source), which is also supported by the waters’ δ13C isotopic signatures. Significant differences in the final CO2 output values were verified between surveys (e.g., 0.16 t d−1 in R1; 0.32 t d−1 in R2), and these differences are probably associated with the monomictic character of the lakes. CO2 emissions ranged between 0.18 t d−1 (CE1) and 0.50 t d−1 (CW1) for the Corvo lakes and between 0.03 t d−1 (P1) and 0.32 t d−1 (R2) for the seven lakes studied on Flores Island. The presence of a dense macrophyte mass in a few of the lakes appears to enhance the CO2 flux in these lakes.
Highlights
Global data indicate that there are 117 × 106 lakes on the Earth, corresponding to a surface area of about 5 × 106 km2, or about 3.7% of the Earth’s nonglaciated land area [1]
The lake waters are mainly of the Na–Cl type, despite a few samples that depict slight alkali earth metal and bicarbonate enrichments (surveys C1, C2, P1, N1, and F1 (Figure S2)). The latter enrichment suggests a contribution of water–rock interaction in addition to the sea salt signatures, which arise from the nearby seawater spraying and explain the dominance of the Na–Cl water type
Several lakes demonstrated thermal stratification, namely C1, L1, R1, F1, and N1, suggesting monomictic behavior when compared with the surveys made in the winter period, when the temperatures along the water column were rather stable (Figure 3A)
Summary
Global data indicate that there are 117 × 106 lakes on the Earth, corresponding to a surface area of about 5 × 106 km , or about 3.7% of the Earth’s nonglaciated land area [1]. Studies of diffuse degassing CO2 have been conducted in volcanic lakes all over the world and in other types of water bodies, and such studies have provided important information about their spatial and temporal flux variations and have been shown to be a relevant tool for mapping hidden active faults and/or for active volcano monitoring [10,18,19,20,21,22,23,24,25]. The current study investigates the CO2 emissions from volcanic lakes in the Western Group (Flores and Corvo islands) of the Azores archipelago, and the main objectives are to (1) characterize the water chemistry in the studied lakes, (2) estimate the CO2 emissions at the lake surface and determine their sources, (3) identify the spatial CO2 degassing patterns, and (4) compare the results from Flores and Corvo islands with other volcanic lakes in the Azores and worldwide
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