Does salt stress constrain spatial distribution of dune building grasses Ammophila arenaria and Elytrichia juncea on the beach?
Abstract Rising sea levels threaten coastal safety by increasing the risk of flooding. Coastal dunes provide a natural form of coastal protection. Understanding drivers that constrain early development of dunes is necessary to assess whether dune development may keep pace with sea‐level rise. In thi...
| Main Authors: | , , , , , |
|---|---|
| Format: | Article |
| Language: | English |
| Published: |
Wiley
2017-09-01
|
| Series: | Ecology and Evolution |
| Subjects: | |
| Online Access: | https://doi.org/10.1002/ece3.3244 |
| id |
doaj-066a428bd0e948d689111164b2e72a36 |
|---|---|
| record_format |
Article |
| spelling |
doaj-066a428bd0e948d689111164b2e72a362021-04-02T14:32:57ZengWileyEcology and Evolution2045-77582017-09-017187290730310.1002/ece3.3244Does salt stress constrain spatial distribution of dune building grasses Ammophila arenaria and Elytrichia juncea on the beach?Marinka E. B. vanPuijenbroek0Corry Teichmann1Noortje Meijdam2Imma Oliveras3Frank Berendse4Juul Limpens5Plant Ecology and Nature Conservation Group (PEN) Wageningen University & Research Wageningen The NetherlandsPlant Ecology and Nature Conservation Group (PEN) Wageningen University & Research Wageningen The NetherlandsPlant Ecology and Nature Conservation Group (PEN) Wageningen University & Research Wageningen The NetherlandsPlant Ecology and Nature Conservation Group (PEN) Wageningen University & Research Wageningen The NetherlandsPlant Ecology and Nature Conservation Group (PEN) Wageningen University & Research Wageningen The NetherlandsPlant Ecology and Nature Conservation Group (PEN) Wageningen University & Research Wageningen The NetherlandsAbstract Rising sea levels threaten coastal safety by increasing the risk of flooding. Coastal dunes provide a natural form of coastal protection. Understanding drivers that constrain early development of dunes is necessary to assess whether dune development may keep pace with sea‐level rise. In this study, we explored to what extent salt stress experienced by dune building plant species constrains their spatial distribution at the Dutch sandy coast. We conducted a field transplantation experiment and a glasshouse experiment with two dune building grasses Ammophila arenaria and Elytrigia juncea. In the field, we measured salinity and monitored growth of transplanted grasses in four vegetation zones: (I) nonvegetated beach, (II) E. juncea occurring, (III) both species co‐occurring, and (IV) A. arenaria dominant. In the glasshouse, we subjected the two species to six soil salinity treatments, with and without salt spray. We monitored biomass, photosynthesis, leaf sodium, and nutrient concentrations over a growing season. The vegetation zones were weakly associated with summer soil salinity; zone I and II were significantly more saline than zones III and IV. Ammophila arenaria performed equally (zone II) or better (zones III, IV) than E. juncea, suggesting soil salinity did not limit species performance. Both species showed severe winter mortality. In the glasshouse, A. arenaria biomass decreased linearly with soil salinity, presumably as a result of osmotic stress. Elytrigia juncea showed a nonlinear response to soil salinity with an optimum at 0.75% soil salinity. Our findings suggest that soil salinity stress either takes place in winter, or that development of vegetated dunes is less sensitive to soil salinity than hitherto expected.https://doi.org/10.1002/ece3.3244Ammophila arenariabiogeomorphologyecophysiologyElytrigia junceaincipient dunessoil salinity |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Marinka E. B. vanPuijenbroek Corry Teichmann Noortje Meijdam Imma Oliveras Frank Berendse Juul Limpens |
| spellingShingle |
Marinka E. B. vanPuijenbroek Corry Teichmann Noortje Meijdam Imma Oliveras Frank Berendse Juul Limpens Does salt stress constrain spatial distribution of dune building grasses Ammophila arenaria and Elytrichia juncea on the beach? Ecology and Evolution Ammophila arenaria biogeomorphology ecophysiology Elytrigia juncea incipient dunes soil salinity |
| author_facet |
Marinka E. B. vanPuijenbroek Corry Teichmann Noortje Meijdam Imma Oliveras Frank Berendse Juul Limpens |
| author_sort |
Marinka E. B. vanPuijenbroek |
| title |
Does salt stress constrain spatial distribution of dune building grasses Ammophila arenaria and Elytrichia juncea on the beach? |
| title_short |
Does salt stress constrain spatial distribution of dune building grasses Ammophila arenaria and Elytrichia juncea on the beach? |
| title_full |
Does salt stress constrain spatial distribution of dune building grasses Ammophila arenaria and Elytrichia juncea on the beach? |
| title_fullStr |
Does salt stress constrain spatial distribution of dune building grasses Ammophila arenaria and Elytrichia juncea on the beach? |
| title_full_unstemmed |
Does salt stress constrain spatial distribution of dune building grasses Ammophila arenaria and Elytrichia juncea on the beach? |
| title_sort |
does salt stress constrain spatial distribution of dune building grasses ammophila arenaria and elytrichia juncea on the beach? |
| publisher |
Wiley |
| series |
Ecology and Evolution |
| issn |
2045-7758 |
| publishDate |
2017-09-01 |
| description |
Abstract Rising sea levels threaten coastal safety by increasing the risk of flooding. Coastal dunes provide a natural form of coastal protection. Understanding drivers that constrain early development of dunes is necessary to assess whether dune development may keep pace with sea‐level rise. In this study, we explored to what extent salt stress experienced by dune building plant species constrains their spatial distribution at the Dutch sandy coast. We conducted a field transplantation experiment and a glasshouse experiment with two dune building grasses Ammophila arenaria and Elytrigia juncea. In the field, we measured salinity and monitored growth of transplanted grasses in four vegetation zones: (I) nonvegetated beach, (II) E. juncea occurring, (III) both species co‐occurring, and (IV) A. arenaria dominant. In the glasshouse, we subjected the two species to six soil salinity treatments, with and without salt spray. We monitored biomass, photosynthesis, leaf sodium, and nutrient concentrations over a growing season. The vegetation zones were weakly associated with summer soil salinity; zone I and II were significantly more saline than zones III and IV. Ammophila arenaria performed equally (zone II) or better (zones III, IV) than E. juncea, suggesting soil salinity did not limit species performance. Both species showed severe winter mortality. In the glasshouse, A. arenaria biomass decreased linearly with soil salinity, presumably as a result of osmotic stress. Elytrigia juncea showed a nonlinear response to soil salinity with an optimum at 0.75% soil salinity. Our findings suggest that soil salinity stress either takes place in winter, or that development of vegetated dunes is less sensitive to soil salinity than hitherto expected. |
| topic |
Ammophila arenaria biogeomorphology ecophysiology Elytrigia juncea incipient dunes soil salinity |
| url |
https://doi.org/10.1002/ece3.3244 |
| work_keys_str_mv |
AT marinkaebvanpuijenbroek doessaltstressconstrainspatialdistributionofdunebuildinggrassesammophilaarenariaandelytrichiajunceaonthebeach AT corryteichmann doessaltstressconstrainspatialdistributionofdunebuildinggrassesammophilaarenariaandelytrichiajunceaonthebeach AT noortjemeijdam doessaltstressconstrainspatialdistributionofdunebuildinggrassesammophilaarenariaandelytrichiajunceaonthebeach AT immaoliveras doessaltstressconstrainspatialdistributionofdunebuildinggrassesammophilaarenariaandelytrichiajunceaonthebeach AT frankberendse doessaltstressconstrainspatialdistributionofdunebuildinggrassesammophilaarenariaandelytrichiajunceaonthebeach AT juullimpens doessaltstressconstrainspatialdistributionofdunebuildinggrassesammophilaarenariaandelytrichiajunceaonthebeach |
| _version_ |
1721561944818712576 |