Sediment Resuspension and Deposition on Seagrass Leaves Impedes Internal Plant Aeration and Promotes Phytotoxic H2S Intrusion

Sediment Resuspension and Deposition on Seagrass Leaves Impedes Internal Plant Aeration and Promotes Phytotoxic H2S Intrusion

HIGHLIGHTS:Sedimentation of fine sediment particles onto seagrass leaves severely hampers the plants' performance in both light and darkness, due to inadequate internal plant aeration and intrusion of phytotoxic H2S.Anthropogenic activities leading to sediment re-suspension can have adverse eff...

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Main Authors: Kasper E. Brodersen, Kathrine J. Hammer, Verena Schrameyer, Anja Floytrup, Michael A. Rasheed, Peter J. Ralph, Michael Kühl, Ole Pedersen
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-05-01
Series:Frontiers in Plant Science
Subjects:
diffusive boundary layer
dredging
H2S
in situ
microsensors
photosynthesis
Online Access:http://journal.frontiersin.org/article/10.3389/fpls.2017.00657/full
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spelling doaj-3ecd721736234867afdeb507254120282020-11-24T22:49:18ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2017-05-01810.3389/fpls.2017.00657247489Sediment Resuspension and Deposition on Seagrass Leaves Impedes Internal Plant Aeration and Promotes Phytotoxic H2S IntrusionKasper E. Brodersen0Kathrine J. Hammer1Verena Schrameyer2Anja Floytrup3Michael A. Rasheed4Peter J. Ralph5Michael Kühl6Michael Kühl7Ole Pedersen8Ole Pedersen9Climate Change Cluster, Faculty of Science, University of Technology SydneySydney, NSW, AustraliaFreshwater Biological Laboratory, Department of Biology, University of CopenhagenCopenhagen, DenmarkClimate Change Cluster, Faculty of Science, University of Technology SydneySydney, NSW, AustraliaFreshwater Biological Laboratory, Department of Biology, University of CopenhagenCopenhagen, DenmarkCentre for Tropical Water and Aquatic Ecosystem Research (TropWater), James Cook UniversityCairns, QLD, AustraliaClimate Change Cluster, Faculty of Science, University of Technology SydneySydney, NSW, AustraliaClimate Change Cluster, Faculty of Science, University of Technology SydneySydney, NSW, AustraliaMarine Biological Section, Department of Biology, University of CopenhagenHelsingør, DenmarkFreshwater Biological Laboratory, Department of Biology, University of CopenhagenCopenhagen, DenmarkSchool of Plant Biology, The University of Western AustraliaCrawley, WA, AustraliaHIGHLIGHTS:Sedimentation of fine sediment particles onto seagrass leaves severely hampers the plants' performance in both light and darkness, due to inadequate internal plant aeration and intrusion of phytotoxic H2S.Anthropogenic activities leading to sediment re-suspension can have adverse effects on adjacent seagrass meadows, owing to reduced light availability and the settling of suspended particles onto seagrass leaves potentially impeding gas exchange with the surrounding water. We used microsensors to determine O2 fluxes and diffusive boundary layer (DBL) thickness on leaves of the seagrass Zostera muelleri with and without fine sediment particles, and combined these laboratory measurements with in situ microsensor measurements of tissue O2 and H2S concentrations. Net photosynthesis rates in leaves with fine sediment particles were down to ~20% of controls without particles, and the compensation photon irradiance increased from a span of 20–53 to 109–145 μmol photons m−2 s−1. An ~2.5-fold thicker DBL around leaves with fine sediment particles impeded O2 influx into the leaves during darkness. In situ leaf meristematic O2 concentrations of plants exposed to fine sediment particles were lower than in control plants and exhibited long time periods of complete meristematic anoxia during night-time. Insufficient internal aeration resulted in H2S intrusion into the leaf meristematic tissues when exposed to sediment resuspension even at relatively high night-time water-column O2 concentrations. Fine sediment particles that settle on seagrass leaves thus negatively affect internal tissue aeration and thereby the plants' resilience against H2S intrusion.http://journal.frontiersin.org/article/10.3389/fpls.2017.00657/fulldiffusive boundary layerdredgingH2Sin situmicrosensorsphotosynthesis
collection DOAJ
language English
format Article
sources DOAJ
author Kasper E. Brodersen
Kathrine J. Hammer
Verena Schrameyer
Anja Floytrup
Michael A. Rasheed
Peter J. Ralph
Michael Kühl
Michael Kühl
Ole Pedersen
Ole Pedersen
spellingShingle Kasper E. Brodersen
Kathrine J. Hammer
Verena Schrameyer
Anja Floytrup
Michael A. Rasheed
Peter J. Ralph
Michael Kühl
Michael Kühl
Ole Pedersen
Ole Pedersen
Sediment Resuspension and Deposition on Seagrass Leaves Impedes Internal Plant Aeration and Promotes Phytotoxic H2S Intrusion
Frontiers in Plant Science
diffusive boundary layer
dredging
H2S
in situ
microsensors
photosynthesis
author_facet Kasper E. Brodersen
Kathrine J. Hammer
Verena Schrameyer
Anja Floytrup
Michael A. Rasheed
Peter J. Ralph
Michael Kühl
Michael Kühl
Ole Pedersen
Ole Pedersen
author_sort Kasper E. Brodersen
title Sediment Resuspension and Deposition on Seagrass Leaves Impedes Internal Plant Aeration and Promotes Phytotoxic H2S Intrusion
title_short Sediment Resuspension and Deposition on Seagrass Leaves Impedes Internal Plant Aeration and Promotes Phytotoxic H2S Intrusion
title_full Sediment Resuspension and Deposition on Seagrass Leaves Impedes Internal Plant Aeration and Promotes Phytotoxic H2S Intrusion
title_fullStr Sediment Resuspension and Deposition on Seagrass Leaves Impedes Internal Plant Aeration and Promotes Phytotoxic H2S Intrusion
title_full_unstemmed Sediment Resuspension and Deposition on Seagrass Leaves Impedes Internal Plant Aeration and Promotes Phytotoxic H2S Intrusion
title_sort sediment resuspension and deposition on seagrass leaves impedes internal plant aeration and promotes phytotoxic h2s intrusion
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2017-05-01
description HIGHLIGHTS:Sedimentation of fine sediment particles onto seagrass leaves severely hampers the plants' performance in both light and darkness, due to inadequate internal plant aeration and intrusion of phytotoxic H2S.Anthropogenic activities leading to sediment re-suspension can have adverse effects on adjacent seagrass meadows, owing to reduced light availability and the settling of suspended particles onto seagrass leaves potentially impeding gas exchange with the surrounding water. We used microsensors to determine O2 fluxes and diffusive boundary layer (DBL) thickness on leaves of the seagrass Zostera muelleri with and without fine sediment particles, and combined these laboratory measurements with in situ microsensor measurements of tissue O2 and H2S concentrations. Net photosynthesis rates in leaves with fine sediment particles were down to ~20% of controls without particles, and the compensation photon irradiance increased from a span of 20–53 to 109–145 μmol photons m−2 s−1. An ~2.5-fold thicker DBL around leaves with fine sediment particles impeded O2 influx into the leaves during darkness. In situ leaf meristematic O2 concentrations of plants exposed to fine sediment particles were lower than in control plants and exhibited long time periods of complete meristematic anoxia during night-time. Insufficient internal aeration resulted in H2S intrusion into the leaf meristematic tissues when exposed to sediment resuspension even at relatively high night-time water-column O2 concentrations. Fine sediment particles that settle on seagrass leaves thus negatively affect internal tissue aeration and thereby the plants' resilience against H2S intrusion.
topic diffusive boundary layer
dredging
H2S
in situ
microsensors
photosynthesis
url http://journal.frontiersin.org/article/10.3389/fpls.2017.00657/full
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