Abstract
ABSTRACTDespite the relevance of submarine groundwater discharge (SGD) for ocean biogeochemistry, the microbial dimension of SGD remains poorly understood. SGD can influence marine microbial communities through supplying chemical compounds and microorganisms, and in turn, microbes at the land–ocean transition zone determine the chemistry of the groundwater reaching the ocean. However, compared with inland groundwater, little is known about microbial communities in coastal aquifers. Here, we review the state of the art of the microbial dimension of SGD, with emphasis on prokaryotes, and identify current challenges and future directions. Main challenges include improving the diversity description of groundwater microbiota, characterized by ultrasmall, inactive and novel taxa, and by high ratios of sediment-attached versus free-living cells. Studies should explore microbial dynamics and their role in chemical cycles in coastal aquifers, the bidirectional dispersal of groundwater and seawater microorganisms, and marine bacterioplankton responses to SGD. This will require not only combining sequencing methods, visualization and linking taxonomy to activity but also considering the entire groundwater–marine continuum. Interactions between traditionally independent disciplines (e.g. hydrogeology, microbial ecology) are needed to frame the study of terrestrial and aquatic microorganisms beyond the limits of their presumed habitats, and to foster our understanding of SGD processes and their influence in coastal biogeochemical cycles.
Highlights
Aquifers contain a significant portion of the Earth’s freshwater (∼23 × 106 km3; Gleeson et al 2016) and a large fraction of the global microbial diversity (Magnabosco et al 2018), yet they have been much less studied than surface aquatic ecosystems
The aim of this review is to provide an overview of the current knowledge on microbial ecology along the land–ocean transition zone connected by submarine groundwater discharge (SGD)
We review the available literature on microbial diversity and ecology along subterranean estuaries and the adjacent coast influenced by SGD
Summary
Aquifers contain a significant portion of the Earth’s freshwater (∼23 × 106 km3; Gleeson et al 2016) and a large fraction of the global microbial diversity (Magnabosco et al 2018), yet they have been much less studied than surface aquatic ecosystems. The magnitude of this knowledge gap has become evident in recent years: 47 previously unknown phyla were found in a single aquifer (Anantharaman et al 2016), highlighting a tremendous potential for taxonomic and metabolic discovery in subsurface ecosystems
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
