1. The Diatom/Dinoflagellate Index as an Indicator of Ecosystem Changes in the Baltic Sea 1. Principle and Handling Instruction
- Author
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Andres Jaanus, Norbert Wasmund, Iveta Jurgensone, Jeanette Göbel, Martin Powilleit, Marie Johansen, Sirpa Lehtinen, and Janina Kownacka
- Subjects
0106 biological sciences ,Baltic Sea ,010504 meteorology & atmospheric sciences ,Good Environmental Status ,Ocean Engineering ,Aquatic Science ,dinoflagellate ,Oceanography ,01 natural sciences ,Zooplankton ,Phytoplankton ,Marine Science ,Ecosystem ,0105 earth and related environmental sciences ,Water Science and Technology ,Global and Planetary Change ,food web ,biology ,Ecology ,indicator ,010604 marine biology & hydrobiology ,Marine Strategy Framework Directive ,Dinoflagellate ,good environmental status ,biology.organism_classification ,diatom ,Food web ,eutrophication ,Diatom ,ta1181 ,Environmental science ,Eutrophication - Abstract
Assessments of the environmental status of the Baltic Sea as called for by the Marine Strategy Framework Directive (MSFD) must be based on a set of indicators. A pre-core indicator is the diatom/dinoflagellate index (Dia/Dino index), which reflects the dominance of diatoms or dinoflagellates during the phytoplankton spring bloom. Here we explain the principles of the Dia/Dino index and the conditions for its calculation using examples from two very different water bodies, the Eastern Gotland Basin and Kiel Bay. The index is based on seasonal mean diatom and dinoflagellate biomass values. A precondition for its applicability is the coverage of the bloom. As a criterion, the maximum value of diatom or dinoflagellate biomass has to exceed a predefined threshold, e.g., 1000 μg/L in the investigated areas. If this condition is not fulfilled, an alternative Dia/Dino index can be calculated based on silicate consumption data. Changes in the dominance of these two phytoplankton classes impact the food web because both their quality as a food source for grazers and their periods of occurrence differ. If diatoms are dominant, their rapid sinking reduces the food stock for zooplankton but delivers plenty of food to the zoobenthos. Consequently, the Dia/Dino index can be used to follow the food pathway (Descriptor 4 of MSFD: “food web”). Moreover, a low Dia/Dino index may indicate silicate limitation caused by eutrophication (Descriptor 5 of MSFD: “eutrophication”). The Dia/Dino index was able to identify the regime shift that occurred at the end of the 1980s in the Baltic Proper. Diatom dominance, and thus a high Dia/Dino index, are typical in historical data and are therefore assumed to reflect good environmental status (GES). In assessments of the environmental status of the Eastern Gotland Basin and Kiel Bay, Dia/Dino index GES thresholds of 0.5 and 0.75, respectively, are suggested. The GES thresholds as calculated by the alternative Dia/Dino index are 0.84 and 0.94, respectively.
- Published
- 2017
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