Lohafex provides new insights on plankton ecology - Only small amounts of atmospheric carbon dioxide fixed
The Indo-German team of scientists from the National Institute of Oceaonography and the Alfred Wegener Institute has returned from its expedition on research vessel Polarstern. The cooperative project Lohafex has yielded new insights on how ocean ecosystems function. But it has dampened hopes on the potential of the Southern Ocean to sequester significant amounts of carbon dioxide (CO2) and thus mitigate global warming. On 17 March the scientists reached Punta Arenas, Chile, together with colleagues from five other countries. They carried out an ocean iron fertilization experiment in the south-western Atlantic for arduous two and a half months in the notorious Roaring Forties. The scientists fertilized a 300 square kilometre patch of ocean inside the core of an eddy (a clockwise rotating water column with an area of about 10,000 square kilometres) with six tonnes of dissolved iron. They followed the effects of the fertilization on the plankton continuously for 39 days. Additionally they investigated ocean chemistry, particularly concentrations of CO2 and other greenhouse gases.
Response of the plankton
As expected, iron addition stimulated growth of the planktonic algae (phytoplankton), which doubled their biomass within the first two weeks by taking up CO2 from the water. “However, the increasing grazing pressure of small crustacean zooplankton (copepods) prevented further growth of the phytoplankton bloom,” explains Dr Wajih Naqvi, co-chief scientist from the National Institute of Oceanography of the Council of Scientific and Industrial Research. Those algal species, which regularly make blooms in coastal regions including the Antarctic, were most heavily grazed. As a result, only a modest amount of carbon sank out of the surface layer by the end of the experiment. Hence, the transfer of CO2 from the atmosphere to the ocean to compensate the deficit caused by the LOHAFEX bloom was minor compared to earlier ocean iron fertilization experiments.
The larger blooms stimulated by earlier experiments were due to a group of algae known as diatoms. These unicellular algae are protected against grazers by shells made of glass (silica) and are known to sink to great depths after blooming. Diatoms could not grow in the Lohafex experiment because previous, natural blooms had already extracted all the silicic acid (the raw material of diatom shells). Iron sources for natural blooms are melting icebergs or terrestrial input from streams or via dust blown off Patagonia. Hence a major finding was that other algal groups, although stimulated by iron fertilization, are unable to make blooms equivalent to those of diatoms. Since the silicic acid content in the northern half of the Southern Ocean is low, iron fertilization in this vast region will not result in removal of significant amounts of CO2 from the atmosphere.
Predators: Amphipods instead of krill
“To our surprise, the iron-fertilized patch attracted large numbers of zooplankton predators belonging to the crustacean group known as amphipods”, explains Professor Dr Victor Smetacek, co-chief scientist from Alfred Wegener Institute for Polar and Marine Research in the Helmholtz Association. These shrimp like crustaceans are between two and three centimetres long and feed indiscriminately on other zooplankton including copepods. The dominant species Themisto gaudichaudii plays an important role in the food web of the Southern Ocean. It is the main food of squid and fin whales in the south-western Atlantic.
A second fertilization of the patch after 3 weeks had no further effect on the phytoplankton indicating that the ecosystem was already saturated with iron. “The bacterial community both inside and outside the patch was very similar and their cell numbers remained unusually low throughout”, said Dr Bernhard Fuchs of the Max Planck Institute for Marine Microbiology (Bremen). This implies that most of the nutrient recycling (including iron) was carried out by the zooplankton. This is a particularly surprising finding because the microbial food web based on bacteria is believed to be the base of all recycling planktonic ecosystems.
Concentrations of gases other than CO2 produced by the plankton either did not change or increased negligibly in the bloom. Some of these gases such as nitrous oxide and methane are potent greenhouse gases, others such as halogenated hydrocarbons contribute to stratospheric ozone depletion. By the end of the experiment, chlorophyll concentrations were in decline. By now the patch will have merged with its surroundings leaving behind no trace other than a swarm of well-fed amphipods.
These preliminary findings will be supported by additional measurements that will be accomplished in the home labs. The data will be refined and interrelationships between the organisms quantified in the coming months. These will be intensely discussed and prepared for joint publication in scientific journals at workshops to be held by the end of the year. The Lohafex participants are very happy with their results. “It was a strenuous cruise, full of anxiety and hope as we chased our patch around the collapsing eddy,” says Smetacek. Strong winds were almost the rule, and on two occasions RV Polarstern had to leave the eddy to avoid strong storms that swept the region. On several occasions the expedition participants weathered short storms with wind speeds of over 120 kilometres per hour. “Nevertheless, despite the hard work under difficult circumstances, Lohafex has been an exciting experience laced with the spirit of adventure and haunted by uncertainty quite unlike other scientific cruises,” Naqvi and Smetacek summarize the experiences of the Indo-German cooperation. Spicy Indian curries were prepared at each meal by a Goan cook specially engaged for this cruise and contributed to the good atmosphere. The experiment thus provides an excellent example of international collaboration in interdisciplinary ocean sciences. “The officers and crew of Polarstern did a fantastic job in providing technical support under testing conditions without which the expedition could not have achieved its objectives,” the chief scientists added.
RV Polarstern left Punta Arenas on 21 March for oceanographic work in the Drake Passage and logistics purposes at Jubany station. Scientists are also going to catch Antarctic fish by traps in order to bring them to Bremerhaven for experimental work. After another stopover in Punta Arenas between 9 and 11 April Polarstern is going to cross the Atlantic, continuously measuring atmospheric and marine data. The ship is going to arrive in Bremerhaven on 24 May 2009.
LOHAFEX is a contribution to POGO, the Partnership for Observation of Global Oceans (www.ocean-partner.org).
Additional images and further information on LOHAFEX can be found on: http://www.awi.de/de/aktuelles_und_presse/selected_news/2009/lohafex
Notes for Editors:
Your contact persons at the Alfred Wegener Institute are Prof. Dr Victor Smetacek (phone: +49 471 4831-1440; email: Victor.Smetacek@awi.de) and Prof. Dr Ulrich Bathmann (phone: +49 471 4831-1275; email: Ulrich.Bathmann@awi.de). Your contact person in the public relations department is Folke Mehrtens (phone: +49 471 4831-2007; email: Folke.Mehrtens@awi.de).
The Alfred Wegener Institute carries out research in the Arctic and Antarctic as well as in the high and mid latitude oceans. The institute coordinates German polar research and provides international science with important infrastructure, e.g. the research icebreaker Polarstern and research stations in the Arctic and Antarctic. The Alfred Wegener Institute is one of 15 research centres within the Helmholtz Association, Germany’s largest scientific organization.
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The Alfred Wegener Institute pursues research in the polar regions and the oceans of mid and high latitudes. As one of the 19 centres of the Helmholtz Association it coordinates polar research in Germany and provides ships like the research icebreaker Polarstern and stations for the international scientific community.