Abstract
SUMMARY: Advances in genetic and immunological approaches during the last few decades have transformed medicine and biomedical research. The human genome and the genomes of numerous model organisms are now fully sequenced. Initial exploitation of this wealth of genetic information has begun to revolutionize research on these species, and the applications derived from it. Progress in understanding the ecology of microorganisms (including marine taxa) has followed closely on the heels of these advances, owing to the tremendous benefit afforded by major technological advances in biomedicine. Through the application of these novel approaches and new technologies, marine microbial ecology has moved from a minor footnote within marine biology and biological oceanography during the 1950s and ‘60s to the focus of much of our present interest in the ocean. During the intervening half-century we have learned a great deal regarding the overall abundances, distributions and activities of microorganisms in the sea. Recognition of the extraordinary diversity of marine microbes, the predominant role that they play in global biogeochemical processes, and the potential for natural or engineered microbial products to benefit humankind, has placed marine microbes in the spotlight of both scientific and popular attention. Our fascination with these minute denizens of the ocean is not likely to wane anytime soon. Recent studies have indicated that we still know relatively little about the breadth of microbial diversity in marine ecosystems. In addition, many (most?) of the predominant marine microbial forms in nature have not yet been brought into laboratory culture. Thus, our knowledge is still rudimentary with respect to the spectra of biochemical, physiological and behavioral abilities of these species, and the study of marine microbes will remain a major focus of investigations in marine science well into the foreseeable future. As a large cadre of researchers moves headlong into this work, we can expect many new discoveries and more paradigm shifts regarding the composition and function of marine microbial communities.
Highlights
The evolution of a modern paradigmThe study of marine microorganisms is undergoing a period of explosive growth and rapidly changing paradigm
Marine microbiological studies up to the mid-1970s were fundamental in establishing the importance of high abundances of bacteria in seawater (Zobell and Feltham, 1938; Jannasch and Jones, 1959; Jannasch, 1966; Hobbie et al, 1972; Francisco et al, 1973), the preponderance of ‘minute’ phytoplankton among the primary producers (Malone, 1971), and the important roles played by heterotrophic unicellular eukaryotes as links in microbial food webs and as agents of decomposition and nutrient remineralization (Johannes, 1965; Fenchel, 1969; Fenchel, 1970)
Mathematical models of marine ecosystems up to that time typically did not include microorganisms as major facets of marine food chains (Steele, 1974). This landscape changed dramatically in subsequent years, beginning with what many researchers view as the seminal paper in marine microbial ecology (Pomeroy, 1974), a review which formalized our knowledge up to that time regarding the ecological roles of microorganisms in oceanic ecosystems
Summary
The study of marine microorganisms is undergoing a period of explosive growth and rapidly changing paradigm. Improvements in microscopy during the 1970s to early 1990s, the application of new visualization technologies such as flow cytometry, the use of radioactive compounds as tracers to examine the pathways and rates of flow of elements and energy within marine food webs, and extensive physiological studies of cultured species of bacteria and protists (algae and protozoa) provided a wealth of information for expanding the newly emerging paradigm outlined by Pomeroy These later studies established some of the basic patterns and constraints on the growth, consumption and elemental cycling of microorganisms in the ‘microbial loop’. Microbial ecology has clearly stepped from the shadows to the forefront of marine research
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