The hyporheic zone and its functions: revision and research status in Neotropical regions

AbstractThe hyporheic zone (HZ), as the connecting ecotone between surface- and groundwater, is functionally part of both fluvial and groundwater ecosystems. Its hydrological, chemical, biological and metabolic features are specific of this zone, not belonging truly neither to surface- nor to ground...

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Main Authors: R Mugnai, G Messana, T Di Lorenzo
Format: Article
Language:English
Published: Instituto Internacional de Ecologia
Series:Brazilian Journal of Biology
Subjects:
Online Access:http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1519-69842015000400524&lng=en&tlng=en
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spelling doaj-412df12ddcb6495daa32b4c3bde495342020-11-24T22:54:37ZengInstituto Internacional de EcologiaBrazilian Journal of Biology1678-437575352453410.1590/1519-6984.15413S1519-69842015000400524The hyporheic zone and its functions: revision and research status in Neotropical regionsR MugnaiG MessanaT Di LorenzoAbstractThe hyporheic zone (HZ), as the connecting ecotone between surface- and groundwater, is functionally part of both fluvial and groundwater ecosystems. Its hydrological, chemical, biological and metabolic features are specific of this zone, not belonging truly neither to surface- nor to groundwater. Exchanges of water, nutrients, and organic matter occur in response to variations in discharge and bed topography and porosity. Dynamic gradients exist at all scales and vary temporally. Across all scales, the functional significance of the HZ relates to its activity and connection with the surface stream. The HZ is a relatively rich environment and almost all invertebrate groups have colonized this habitat. This fauna, so-called hyporheos, is composed of species typical from interstitial environment, and also of benthic epigean and phreatic species. The hyporheic microbiocenose consists in bacteria, archaea, protozoa and fungi. The HZ provides several ecosystem services, playing a pivotal role in mediating exchange processes, including both matter and energy, between surface and subterranean ecosystems, functioning as regulator of water flow, benthic invertebrates refuge and place of storage, source and transformation of organic matter. The hyporheic zone is one of the most threatened aquatic environments, being strongly influenced by human activities, and the least protected by legislation worldwide. Its maintenance and conservation is compelling in order to preserve the ecological interconnectivity among the three spatial dimensions of the aquatic environment. Although several researchers addressed the importance of the hyporheic zone early, and most contemporary stream ecosystem models explicitly include it, very little is known about the HZ of Neotropical regions. From a biological standpoint, hyporheos fauna in Neotropical regions are still largely underestimated. This review focuses on a brief presentation of the hyporheic zone and its functions and significance as an ecotone. We also highlighted the key aspects considering also the current status of research in Neotropical regions.http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1519-69842015000400524&lng=en&tlng=enEnterobacteriaceaegroundwatermeiofaunamacroinvertebrateswater exchange
collection DOAJ
language English
format Article
sources DOAJ
author R Mugnai
G Messana
T Di Lorenzo
spellingShingle R Mugnai
G Messana
T Di Lorenzo
The hyporheic zone and its functions: revision and research status in Neotropical regions
Brazilian Journal of Biology
Enterobacteriaceae
groundwater
meiofauna
macroinvertebrates
water exchange
author_facet R Mugnai
G Messana
T Di Lorenzo
author_sort R Mugnai
title The hyporheic zone and its functions: revision and research status in Neotropical regions
title_short The hyporheic zone and its functions: revision and research status in Neotropical regions
title_full The hyporheic zone and its functions: revision and research status in Neotropical regions
title_fullStr The hyporheic zone and its functions: revision and research status in Neotropical regions
title_full_unstemmed The hyporheic zone and its functions: revision and research status in Neotropical regions
title_sort hyporheic zone and its functions: revision and research status in neotropical regions
publisher Instituto Internacional de Ecologia
series Brazilian Journal of Biology
issn 1678-4375
description AbstractThe hyporheic zone (HZ), as the connecting ecotone between surface- and groundwater, is functionally part of both fluvial and groundwater ecosystems. Its hydrological, chemical, biological and metabolic features are specific of this zone, not belonging truly neither to surface- nor to groundwater. Exchanges of water, nutrients, and organic matter occur in response to variations in discharge and bed topography and porosity. Dynamic gradients exist at all scales and vary temporally. Across all scales, the functional significance of the HZ relates to its activity and connection with the surface stream. The HZ is a relatively rich environment and almost all invertebrate groups have colonized this habitat. This fauna, so-called hyporheos, is composed of species typical from interstitial environment, and also of benthic epigean and phreatic species. The hyporheic microbiocenose consists in bacteria, archaea, protozoa and fungi. The HZ provides several ecosystem services, playing a pivotal role in mediating exchange processes, including both matter and energy, between surface and subterranean ecosystems, functioning as regulator of water flow, benthic invertebrates refuge and place of storage, source and transformation of organic matter. The hyporheic zone is one of the most threatened aquatic environments, being strongly influenced by human activities, and the least protected by legislation worldwide. Its maintenance and conservation is compelling in order to preserve the ecological interconnectivity among the three spatial dimensions of the aquatic environment. Although several researchers addressed the importance of the hyporheic zone early, and most contemporary stream ecosystem models explicitly include it, very little is known about the HZ of Neotropical regions. From a biological standpoint, hyporheos fauna in Neotropical regions are still largely underestimated. This review focuses on a brief presentation of the hyporheic zone and its functions and significance as an ecotone. We also highlighted the key aspects considering also the current status of research in Neotropical regions.
topic Enterobacteriaceae
groundwater
meiofauna
macroinvertebrates
water exchange
url http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1519-69842015000400524&lng=en&tlng=en
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