Competitive exclusion of Elymus athericus from a high-stress habitat in a European salt marsh

AC Bockelmann; R Neuhaus

Competitive exclusion of Elymus athericus from a high-stress habitat in a European salt marsh

AC Bockelmann^*, R Neuhaus

^*Corresponding author for this work

University of Groningen

Research output: Contribution to journal › Article › Academic › peer-review

98 Citations (Scopus)

Abstract

1 Zonation is often seen in environments with a strong physico-chemical gradient, such as salt marshes. It has been hypothesized that plant species are limited in their distribution by abiotic factors towards the more extreme end of the gradient, and by competition towards the more favourable end. Invasion of the native clonal grass genus Elymus in many Wadden Sea marshes may be due to increasing atmospheric nitrogen input into a nitrogen-limited environment. However, at Thmlauer Bay, Germany, Elymus arhericus does not occur in lower salt marsh communities that are dominated by a dwarf shrub (A tripler portulacoides). We therefore hypothesized that at this site the downslope (= more extreme) distributional boundary of E. athericus is a result of competition with A. portulacoides rather than of physiological limits.

2 A factorial experiment was set up to investigate the effects of removal of each competitor and fertilization. The reciprocal effects of the species on each other were measured in terms of vegetation cover and above-ground biomass. The impact of the tidal regime on plant zonation was investigated by calculating inundation frequencies at the boundary between the two plant populations from water level recordings.

3 Elymus athericus extended its distribution into the lower salt marsh when A. portulacoides was removed. The latter increased in cover but not in biomass after the removal of E. athericus. Neither species showed a response to nitrogen fertilization. The boundary between the two species in the control plots varied considerably in elevation and inundation frequency.

4 The lower distributional boundary of E. athericus can be interpreted as the result of competition with A. portulacoides. Improvement of nitrogen availability in concentrations of the same order of magnitude as annual atmospheric input had no detectable effect on plant zonation and growth. Elevation and inundation frequency were not strictly correlated with plant zonation.

Original language	English
Pages (from-to)	503-513
Number of pages	11
Journal	Journal of Ecology
Volume	87
Issue number	3
Publication status	Published - Jun-1999

Keywords

atmospheric nitrogen input
Atriplex portulacoides
invasion
tidal inundation
zonation
PLANT ZONATION
SUCCESSION
VEGETATION
COMMUNITY
SALINITY
HALOPHYTES
COASTAL
GROWTH

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@article{a5cebd86818a41dc917174d5cb99e892,

title = "Competitive exclusion of Elymus athericus from a high-stress habitat in a European salt marsh",

abstract = "1 Zonation is often seen in environments with a strong physico-chemical gradient, such as salt marshes. It has been hypothesized that plant species are limited in their distribution by abiotic factors towards the more extreme end of the gradient, and by competition towards the more favourable end. Invasion of the native clonal grass genus Elymus in many Wadden Sea marshes may be due to increasing atmospheric nitrogen input into a nitrogen-limited environment. However, at Thmlauer Bay, Germany, Elymus arhericus does not occur in lower salt marsh communities that are dominated by a dwarf shrub (A tripler portulacoides). We therefore hypothesized that at this site the downslope (= more extreme) distributional boundary of E. athericus is a result of competition with A. portulacoides rather than of physiological limits.2 A factorial experiment was set up to investigate the effects of removal of each competitor and fertilization. The reciprocal effects of the species on each other were measured in terms of vegetation cover and above-ground biomass. The impact of the tidal regime on plant zonation was investigated by calculating inundation frequencies at the boundary between the two plant populations from water level recordings.3 Elymus athericus extended its distribution into the lower salt marsh when A. portulacoides was removed. The latter increased in cover but not in biomass after the removal of E. athericus. Neither species showed a response to nitrogen fertilization. The boundary between the two species in the control plots varied considerably in elevation and inundation frequency.4 The lower distributional boundary of E. athericus can be interpreted as the result of competition with A. portulacoides. Improvement of nitrogen availability in concentrations of the same order of magnitude as annual atmospheric input had no detectable effect on plant zonation and growth. Elevation and inundation frequency were not strictly correlated with plant zonation.",

keywords = "atmospheric nitrogen input, Atriplex portulacoides, invasion, tidal inundation, zonation, PLANT ZONATION, SUCCESSION, VEGETATION, COMMUNITY, SALINITY, HALOPHYTES, COASTAL, GROWTH",

author = "AC Bockelmann and R Neuhaus",

year = "1999",

month = jun,

language = "English",

volume = "87",

pages = "503--513",

journal = "Journal of Ecology",

issn = "1365-2745",

publisher = "Wiley",

number = "3",

}

TY - JOUR

T1 - Competitive exclusion of Elymus athericus from a high-stress habitat in a European salt marsh

AU - Bockelmann, AC

AU - Neuhaus, R

PY - 1999/6

Y1 - 1999/6

N2 - 1 Zonation is often seen in environments with a strong physico-chemical gradient, such as salt marshes. It has been hypothesized that plant species are limited in their distribution by abiotic factors towards the more extreme end of the gradient, and by competition towards the more favourable end. Invasion of the native clonal grass genus Elymus in many Wadden Sea marshes may be due to increasing atmospheric nitrogen input into a nitrogen-limited environment. However, at Thmlauer Bay, Germany, Elymus arhericus does not occur in lower salt marsh communities that are dominated by a dwarf shrub (A tripler portulacoides). We therefore hypothesized that at this site the downslope (= more extreme) distributional boundary of E. athericus is a result of competition with A. portulacoides rather than of physiological limits.2 A factorial experiment was set up to investigate the effects of removal of each competitor and fertilization. The reciprocal effects of the species on each other were measured in terms of vegetation cover and above-ground biomass. The impact of the tidal regime on plant zonation was investigated by calculating inundation frequencies at the boundary between the two plant populations from water level recordings.3 Elymus athericus extended its distribution into the lower salt marsh when A. portulacoides was removed. The latter increased in cover but not in biomass after the removal of E. athericus. Neither species showed a response to nitrogen fertilization. The boundary between the two species in the control plots varied considerably in elevation and inundation frequency.4 The lower distributional boundary of E. athericus can be interpreted as the result of competition with A. portulacoides. Improvement of nitrogen availability in concentrations of the same order of magnitude as annual atmospheric input had no detectable effect on plant zonation and growth. Elevation and inundation frequency were not strictly correlated with plant zonation.

AB - 1 Zonation is often seen in environments with a strong physico-chemical gradient, such as salt marshes. It has been hypothesized that plant species are limited in their distribution by abiotic factors towards the more extreme end of the gradient, and by competition towards the more favourable end. Invasion of the native clonal grass genus Elymus in many Wadden Sea marshes may be due to increasing atmospheric nitrogen input into a nitrogen-limited environment. However, at Thmlauer Bay, Germany, Elymus arhericus does not occur in lower salt marsh communities that are dominated by a dwarf shrub (A tripler portulacoides). We therefore hypothesized that at this site the downslope (= more extreme) distributional boundary of E. athericus is a result of competition with A. portulacoides rather than of physiological limits.2 A factorial experiment was set up to investigate the effects of removal of each competitor and fertilization. The reciprocal effects of the species on each other were measured in terms of vegetation cover and above-ground biomass. The impact of the tidal regime on plant zonation was investigated by calculating inundation frequencies at the boundary between the two plant populations from water level recordings.3 Elymus athericus extended its distribution into the lower salt marsh when A. portulacoides was removed. The latter increased in cover but not in biomass after the removal of E. athericus. Neither species showed a response to nitrogen fertilization. The boundary between the two species in the control plots varied considerably in elevation and inundation frequency.4 The lower distributional boundary of E. athericus can be interpreted as the result of competition with A. portulacoides. Improvement of nitrogen availability in concentrations of the same order of magnitude as annual atmospheric input had no detectable effect on plant zonation and growth. Elevation and inundation frequency were not strictly correlated with plant zonation.

KW - atmospheric nitrogen input

KW - Atriplex portulacoides

KW - invasion

KW - tidal inundation

KW - zonation

KW - PLANT ZONATION

KW - SUCCESSION

KW - VEGETATION

KW - COMMUNITY

KW - SALINITY

KW - HALOPHYTES

KW - COASTAL

KW - GROWTH

M3 - Article

SN - 1365-2745

VL - 87

SP - 503

EP - 513

JO - Journal of Ecology

JF - Journal of Ecology

IS - 3

ER -