Microbial loop
Encyclopedia
The microbial loop describes a trophic pathway in the marine microbial food web where dissolved organic carbon (DOC) is returned to higher trophic levels via the incorporation into bacterial biomass, and coupled with the classic food chain formed by phytoplankton-zooplankton-nekton. The term microbial loop was coined by Azam et al. (Fenchel 2008) to include the role of marine bacteria playing in the marine ecosystem carbon and nutrient cycles in the marine environment. In general, dissolved organic carbon (DOC) is introduced into the ocean environment from bacterial lysis, the leakage or exudation of fixed carbon from phytoplankton (e.g., mucilaginous exopolymer from diatoms), sudden cell senescence, sloppy feeding by zooplankton, the excretion of waste products by aquatic animals, or the breakdown or dissolution of organic particles from terrestrial plants and soils (Van den Meersche et al. 2004). Bacteria in the microbial loop decompose this particulate detritus to utilize the energy-rich matter for growth. Since more than 95% of organic matter in marine ecosystem consists of polymeric, high molecular weight (HMW) compounds (e.g., protein, polysaccharides, lipids), only a small portion of total dissolved organic matter (DOM) is readily utilizable to most marine organisms at higher trophic levels. This means that dissolved organic carbon (DOC) is not available directly to most marine organisms, therefore, marine bacteria utilize this organic carbon into the food web resulting in additional energy available to higher trophic levels. Recently the term ‘microbial food web
Microbial food web
The microbial food web refers the combined trophic interactions among microbes in aquatic environments. These microbes include viruses, bacteria, algae, heterotrophic protists ....

’ has been substituted for the microbial loop.

History

Prior to the discovery of the microbial loop, the classic view of marine food webs was one of a linear chain from phytoplankton to nekton. Generally, marine bacteria were not thought to be significant consumers of organic matter including carbon although they were known to exist. However, the view of marine pelagic food web was challenged during the 1970s and 1980s by Pomeroy and Azam who suggested the alternative pathway of carbon flow from bacteria to protozoans to metazoans. Early work in marine ecology that investigated the role of bacteria in oceanic environments concluded their role to be very minimal. Traditional methods of counting bacteria (e.g., culturing on agar plates) only yielded small numbers of bacteria that were much smaller than true ambient abundance in seawater. Developments in technology for counting bacteria have led to the understanding of the significant importance of marine bacteria in oceanic environments. In 1970s, the alternative technique of direct microscopic counts was developed by Francisco et al. (1973) and Hobbie et al. (1977). Bacterial cells were counted with an epifluorescence microscope, producing what is called an acridine orange direct count (AODC). This led to reveal a reassessment of the large concentration of bacteria in seawater, which was found to be more than people had expected, typically in the order of 1 million per milliliter. Also, development of the bacterial productivity assay showed that a large fraction (such as 50%) of net primary production (NPP) was processed by marine bacteria. In 1974, Larry Pomeroy published a seminar paper in BioScience entitled “The Ocean’s Food Web, A Changing Paradigm”, where the key role of microbes in ocean productivity was highlighted. In the early 1980s, Azam and a panel of top ocean scientists published the synthesis of their discussion in the journal Marine Ecology Progress Series entitled “The Ecological Role of Water Column Microbes in the Sea”. The term ‘microbial loop’ was introduced in this paper and noted that the bacteria-consuming protists were in the same size class as phytoplankton and likely an important component of the diet of planktonic crustaceans. Evidence accumulated since this time has indicated that some of these bacterivorous protists such as ciliates are actually selectively preyed upon by these copepods. In 1986, Prochlorococcus which is found in high abundances in oligotrophic area of the ocean was discovered by Chisholm, Olson, and other collaborators, although there had been several earlier records of very small cyanobacteria containing chlorophyll-b in the ocean. Stemming from this discovery, researchers observed the changing role of marine bacteria along a nutrient gradient from eutrophic to oligotrophic areas in the ocean.

Factors controlling the microbial loop

The efficiency of microbial loop is determined by the density of marine bacteria in the microbial loop (Taylor and Joint 1990). It has become clear that bacterial density is mainly controlled by the grazing activity of small protozoans, and various taxonomic groups of flagellates. Also, viral infection causes bacterial lysis, which release cell contents back into the dissolved organic matter (DOM) pool, lowering the overall efficiency of the microbial loop. Mortality from viral infection has almost the same magnitude as the protozoan grazing. However, compared to the protozoan grazing, the effect of viral lysis can be very different because lysis is highly host-specific to each marine bacteria. Both protozoan grazing and viral infection balance the major fraction of bacterial growth. In addition, the microbial loop dominates in oligotrophic waters rather than eutrophic areas where the classical plankton food chain predominates due to frequent, fresh supply of mineral nutrients (e.g., spring bloom in temperature waters, upwelling
Upwelling
Upwelling is an oceanographic phenomenon that involves wind-driven motion of dense, cooler, and usually nutrient-rich water towards the ocean surface, replacing the warmer, usually nutrient-depleted surface water. The increased availability in upwelling regions results in high levels of primary...

 areas). The efficiency of the microbial loop can be determined by bacterial incorporation of radio-labeled substrates such as 3H-thymidine, 3H-leucine.

Importance in the marine ecosystems

The microbial loop is of particular importance in increasing the efficiency of marine food web via the utilization dissolved organic matter (DOM) which is typically unavailable to most marine organisms. In this sense, the process aids in recycling of organic matter, and nutrients and mediates the transfer of energy above thermocline
Thermocline
A thermocline is a thin but distinct layer in a large body of fluid , in which temperature changes more rapidly with depth than it does in the layers above or below...

. More than 30% of dissolved organic carbon (DOC) incorporated into bacteria is respired and released as CO2. The other main effect of the microbial loop in the water column is that it accelerates mineralization
Mineralization
Mineralization may refer to:* Mineralization , the process through which an organic substance becomes impregnated by inorganic substances...

 through regenerating production in nutrient-limited environment (e.g., oligotrophic waters). In general, the entire microbial loop is to some extent typically five to ten times the mass of all multicellular marine organisms in marine ecosystem. Marine bacteria are the base of food web in most oceanic environments, and improve the trophic efficiency of both marine food webs and important aquatic processes (e.g., the productivity of fisheries, the amount of carbon exported to the ocean floor). Therefore, the microbial loop, together with primary production, controls the productivity of marine systems together with primary production in the ocean. Many planktonic bacteria are motile using flagella to propagate and show chemotaxis
Chemotaxis
Chemotaxis is the phenomenon in which somatic cells, bacteria, and other single-cell or multicellular organisms direct their movements according to certain chemicals in their environment. This is important for bacteria to find food by swimming towards the highest concentration of food molecules,...

 to locate and attach towards a point source of dissolved organic matter (DOM) where fast growing cells digest all or part of the particle. That they will accumulate within few minutes at such patches is directly observable. Therefore, the water column can be considered to some extent as a spatially organized place on a small scale rather than a completely mixed system. This patch formation affects the biologically-mediated transfer of matter and energy in the microbial loop. More currently, the microbial loop is considered to more extended (Kerner, Hohenberg, Ertl, Reckermannk, spitzy 2003). Chemical compounds in typical bacteria such as DNA, lipids, sugars, and similar value of C:N ratios per particle are found in the micro particles formed abiotically. It can be qualified to microparticles as a potentially attractive food source to bacterivorous planktons. If this is the case, the microbial loop should be considered to be extended by the pathway of direct transfer of dissolved organic matter (DOM) via abiotic micro particle formation to higher trophic levels. This has great ecological importance in two ways. First, it occurs without carbon losses, and makes organic matter more efficiently available to phagotrophic organisms than only heterotrophic bacteria. Furthermore, abiotic transformation in the extended microbial loop depends only on temperature and the capacity of DOM to aggregate, while biotic transformation is dependent of its biological availability (Kerner, Hohenberg, Ertl, Reckermannk, Spitzy 2003).

See also

  • Biological pump
    Biological pump
    In oceanic biogeochemistry, the biological pump is the sum of a suite of biologically-mediated processes that transport carbon from the surface euphotic zone to the ocean's interior.-Overview:...

  • f-ratio
    F-ratio
    In oceanic biogeochemistry, the f-ratio is the fraction of total primary production fuelled by nitrate . This fraction is significant because it is assumed to be directly related to the sinking flux of organic marine snow from the surface ocean by the biological pump...

  • Microbial food web‎
  • Plankton
    Plankton
    Plankton are any drifting organisms that inhabit the pelagic zone of oceans, seas, or bodies of fresh water. That is, plankton are defined by their ecological niche rather than phylogenetic or taxonomic classification...

  • Farooq Azam
    Farooq Azam
    Farooq Azam is a highly cited researcher in the field of marine microbiology. He is a Distinguished Professor at the Scripps Institution of Oceanography, at the University of California, San Diego. Farooq Azam grew up in Lahore and received his early education in Lahore...

  • Marine snow
    Marine snow
    In the deep ocean, marine snow is a continuous shower of mostly organic detritus falling from the upper layers of the water column. It is a significant means of exporting energy from the light-rich photic zone to the aphotic zone below. The term was first coined by the explorer William Beebe as he...

  • Dissolved organic matter (DOM)
  • Dissolved organic carbon (DOC)
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