Sabine Dittmann is an Australian-based marine biologist and expert on the ecology of tidal flats. She is Associate Professor of Marine Biology at Flinders University in Adelaide, and is President of the Australian Marine Sciences Association.
Dittmann's research focuses on the community of organisms living in soft sediments that make up the benthos. Using field experiments in tidal wetlands of temperate and tropical areas like the North Sea and Australia, she studies the roles of ecosystem engineers — such as mussel beds — and the impact on the ecosystem of human activities and invasive species.
Dittmann and her team conduct regular monitoring of South Australia's Coorong, assessing the availability of food for migratory waders and how benthic invertebrates respond to changes in the environment.
Dittmann studied at the University of Göttingen in Germany, where she earned her MSc (Diplom) in 1984 and her PhD in 1987, with a project on mussel bed communities and biodeposition.
After further study in marine ecology at the Woods Hole Oceanographic Institution, she undertook a three-year post-doctoral fellowship researching species interactions in tropical tidal flats, at the Australian Institute of Marine Science (AIMS) in Townsville, Australia.
Dittmann returned to Germany and for seven years led an interdisciplinary project studying the Wadden Sea ecosystem. She was also affiliated with the Centre for Tropical Marine Ecology in Bremen.
In 2001 she obtained her Habilitation, venia legendi for Ecology, from the University of Bremen.
She returned to Australia in 2004, joining the South Australian state branch of the Australian Marine Sciences Association (AMSA) when it re-formed in 2007. She joined the AMSA National Council in 2007, became Vice-President in 2010 and President in 2012. [1]
Dittmann has been the Director of Flinders University's Lincoln Marine Science Centre in Port Lincoln since 2009. [2] She is also a member of the South Australian Marine Park Council [3] and the National Committee for Ecology, Evolution and Conservation of the Australian Academy of Science. [4]
Dittmann's research at AIMS in Queensland showed that soldier crabs, Mictyris longicarpus, prey on meiofauna, demonstrating an example of species interaction on tidal flats: "At that time, it was doubted by the scientific community that species interactions would play a role in benthic communities of tropical tidal flats, as extreme environmental conditions appeared to be the prevailing factor. Yet, no one had investigated any interactions there." [5]
Her subsequent work with an interdisciplinary team examined living and non-living components of the ecosystem in the Wadden Sea — an extensive intertidal zone that stretches along the coast from the Netherlands to Denmark, taking in many German estuaries.
The team analysed the effect of both natural and experimentally induced disturbances, and how stability of the organisms depends on mechanisms like high functional diversity, reproductive output and mobility. [6]
Dittmann's monitoring work in the Coorong, Lower Lakes and Murray Mouth also uses experimental disturbances, relocating benthic macroinvertebrates such as polychaete worms, amphipods and micro-bivalves to sites of different salinity and exposure. This study concluded that a reduction in salinity and increase in water levels is needed to recolonise mudflats. [7]
The Yellow Sea is a marginal sea of the Western Pacific Ocean located between mainland China and the Korean Peninsula, and can be considered the northwestern part of the East China Sea. It is one of four seas named after common colour terms, and its name is descriptive of the golden-yellow color of the silt-ridden water discharged from major rivers.
An estuary is a partially enclosed coastal body of brackish water with one or more rivers or streams flowing into it, and with a free connection to the open sea. Estuaries form a transition zone between river environments and maritime environments and are an example of an ecotone. Estuaries are subject both to marine influences such as tides, waves, and the influx of saline water, and to fluvial influences such as flows of freshwater and sediment. The mixing of seawater and freshwater provides high levels of nutrients both in the water column and in sediment, making estuaries among the most productive natural habitats in the world.
A keystone species is a species that has a disproportionately large effect on its natural environment relative to its abundance, a concept introduced in 1969 by the zoologist Robert T. Paine. Keystone species play a critical role in maintaining the structure of an ecological community, affecting many other organisms in an ecosystem and helping to determine the types and numbers of various other species in the community. Without keystone species, the ecosystem would be dramatically different or cease to exist altogether. Some keystone species, such as the wolf, are also apex predators.
A salt marsh, saltmarsh or salting, also known as a coastal salt marsh or a tidal marsh, is a coastal ecosystem in the upper coastal intertidal zone between land and open saltwater or brackish water that is regularly flooded by the tides. It is dominated by dense stands of salt-tolerant plants such as herbs, grasses, or low shrubs. These plants are terrestrial in origin and are essential to the stability of the salt marsh in trapping and binding sediments. Salt marshes play a large role in the aquatic food web and the delivery of nutrients to coastal waters. They also support terrestrial animals and provide coastal protection.
The blue mussel, also known as the common mussel, is a medium-sized edible marine bivalve mollusc in the family Mytilidae, the mussels. Blue mussels are subject to commercial use and intensive aquaculture. A species with a large range, empty shells are commonly found on beaches around the world.
A tide pool or rock pool is a shallow pool of seawater that forms on the rocky intertidal shore. These pools typically range from a few inches to a few feet deep and a few feet across. Many of these pools exist as separate bodies of water only at low tide, as seawater gets trapped when the tide recedes. Tides are caused by the gravitational pull of the sun and moon. A tidal cycle is usually about 25 hours and consists of one or two high tides and two low tides.
Kelp forests are underwater areas with a high density of kelp, which covers a large part of the world's coastlines. Smaller areas of anchored kelp are called kelp beds. They are recognized as one of the most productive and dynamic ecosystems on Earth. Although algal kelp forest combined with coral reefs only cover 0.1% of Earth's total surface, they account for 0.9% of global primary productivity. Kelp forests occur worldwide throughout temperate and polar coastal oceans. In 2007, kelp forests were also discovered in tropical waters near Ecuador.
An aquatic ecosystem is an ecosystem found in and around a body of water, in contrast to land-based terrestrial ecosystems. Aquatic ecosystems contain communities of organisms—aquatic life—that are dependent on each other and on their environment. The two main types of aquatic ecosystems are marine ecosystems and freshwater ecosystems. Freshwater ecosystems may be lentic ; lotic ; and wetlands.
Mangrove forests, also called mangrove swamps, mangrove thickets or mangals, are productive wetlands that occur in coastal intertidal zones. Mangrove forests grow mainly at tropical and subtropical latitudes because mangroves cannot withstand freezing temperatures. There are about 80 different species of mangroves, all of which grow in areas with low-oxygen soil, where slow-moving waters allow fine sediments to accumulate.
The intertidal zone or foreshore is the area above water level at low tide and underwater at high tide: in other words, the part of the littoral zone within the tidal range. This area can include several types of habitats with various species of life, such as seastars, sea urchins, and many species of coral with regional differences in biodiversity. Sometimes it is referred to as the littoral zone or seashore, although those can be defined as a wider region.
Intertidal ecology is the study of intertidal ecosystems, where organisms live between the low and high tide lines. At low tide, the intertidal is exposed whereas at high tide, the intertidal is underwater. Intertidal ecologists therefore study the interactions between intertidal organisms and their environment, as well as between different species of intertidal organisms within a particular intertidal community. The most important environmental and species interactions may vary based on the type of intertidal community being studied, the broadest of classifications being based on substrates—rocky shore and soft bottom communities.
A rocky shore is an intertidal area of seacoasts where solid rock predominates. Rocky shores are biologically rich environments, and are a useful "natural laboratory" for studying intertidal ecology and other biological processes. Due to their high accessibility, they have been well studied for a long time and their species are well known.
Marine ecosystems are the largest of Earth's aquatic ecosystems and exist in waters that have a high salt content. These systems contrast with freshwater ecosystems, which have a lower salt content. Marine waters cover more than 70% of the surface of the Earth and account for more than 97% of Earth's water supply and 90% of habitable space on Earth. Seawater has an average salinity of 35 parts per thousand of water. Actual salinity varies among different marine ecosystems. Marine ecosystems can be divided into many zones depending upon water depth and shoreline features. The oceanic zone is the vast open part of the ocean where animals such as whales, sharks, and tuna live. The benthic zone consists of substrates below water where many invertebrates live. The intertidal zone is the area between high and low tides. Other near-shore (neritic) zones can include mudflats, seagrass meadows, mangroves, rocky intertidal systems, salt marshes, coral reefs, lagoons. In the deep water, hydrothermal vents may occur where chemosynthetic sulfur bacteria form the base of the food web.
The following outline is provided as an overview of and topical guide to ecology:
Brackish marshes develop from salt marshes where a significant freshwater influx dilutes the seawater to brackish levels of salinity. This commonly happens upstream from salt marshes by estuaries of coastal rivers or near the mouths of coastal rivers with heavy freshwater discharges in the conditions of low tidal ranges.
A marine habitat is a habitat that supports marine life. Marine life depends in some way on the saltwater that is in the sea. A habitat is an ecological or environmental area inhabited by one or more living species. The marine environment supports many kinds of these habitats.
Estuary freshwater inflow is the freshwater that flows into an estuary. Other types of environmental flows include instream flow, the freshwater water flowing in rivers or streams, and estuary outflow, the outflow from an estuary to the ocean.
Benthic-pelagic coupling are processes that connect the benthic zone and the pelagic zone through the exchange of energy, mass, or nutrients. These processes play a prominent role in both freshwater and marine ecosystems and are influenced by a number of chemical, biological, and physical forces that are crucial to functions from nutrient cycling to energy transfer in food webs.
A marine coastal ecosystem is a marine ecosystem which occurs where the land meets the ocean. Marine coastal ecosystems include many very different types of marine habitats, each with their own characteristics and species composition. They are characterized by high levels of biodiversity and productivity.
Carol Anne Blanchette is research biologist at the University of California, Santa Barbara who is known for her work on marine intertidal zones and the biomechanics of marine organisms.