Cooperative and competitive interactions in the recruitment of marsh elders

While most studies of plant recruitment focus on competitive interactions, recruitment can be influenced by both positive and negative interactions. We studied recruitment in the marsh elder, Iva frutescens, to examine the relationship between positive and negative forces in recruitment. Marsh elder...

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Bibliographic Details
Published in:Ecology (Durham) 1994-12, Vol.75 (8), p.2416-2429
Main Authors: Bertness, Mark D., Yeh, Su Ming
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
COMMUNAUTE VEGETALE
COMPOSITAE
COMUNIDADES VEGETALES
Demecology
ECOLOGIA VEGETAL
Ecological competition
Ecological zones
Ecology
ESTABLECIMIENTO DE PLANTAS
ETABLISSEMENT DE LA PLANTE
Flowers & plants
Fundamental and applied biological sciences. Psychology
Gardens
IVA
Iva frutescens
MARISMAS SALADAS
Nurses
PHYTOECOLOGIE
PLANT COMMUNITIES
PLANT DENSITY
PLANT ECOLOGY
PLANT ESTABLISHMENT
PLANT POPULATION
Plants
Plants and fungi
PLANTULAS
PLANTULE
POBLACION VEGETAL
POPULATION VEGETALE
PRE SALE
SALINIDAD
SALINITE
SALINITY
SALTMARSHES
SEEDLINGS
Soil salinity
SPATIAL DISTRIBUTION
SUPERVIVENCIA
SURVIE
SURVIVAL
Synecology
Vegetation
Wetland ecology
Wetlands
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Summary:While most studies of plant recruitment focus on competitive interactions, recruitment can be influenced by both positive and negative interactions. We studied recruitment in the marsh elder, Iva frutescens, to examine the relationship between positive and negative forces in recruitment. Marsh elder seedling establishment was competitively precluded in undisturbed habitats by the dense perennial turfs that dominate marsh habitats. Adult marsh elders, however, passively trapped tidally transported plant debris that kills underlying vegetation. As a result, adult Iva created bare space and positively influenced seedling recruitment by facilitating the formation of seedling safe sites. Within bare patches, Iva seedling survivorship was high under adult conspecifics and at high seedling densities. In contrast, solitary Iva seedlings without adult neighbors suffered extremely high mortality. These positive associations among neighbors were experimentally shown to result from neighbor buffering of hypersaline soil conditions. Salinities in unshaded bare patches were elevated due to increased exposure to radiation and surface evaporation. Both adult nurse plants and high seedling densities shaded the soil, ameliorated high soil salinities, and thus had positive effects on seedling performance. Under adult canopies or when soil salinities were experimentally reduced by shading or watering, positive associations did not occur and all interactions among seedlings or between seedlings and adults were competitive. Our results indicate that marsh plant recruitment is dictated by a balance between positive and negative forces. Moreover, since positive interactions were only seen once densities and physical forces had been experimentally manipulated, our results when that positive interactions may be important forces in assemblages even where they are not conspicuous. These findings contribute to growing evidence that positive interactions, particularly those mediated by neighbor amelioration of harsh physical conditions, are important community level processes in a wide range of plant and animal assemblages.
ISSN:0012-9658
1939-9170
DOI:10.2307/1940895