Interdependence of Myrica cerifera seedlings and the nodule forming actinomycete, Frankia, in a coastal environment. Wijnholds, A. & Young, D. R. Journal of Coastal Research, 2000.
Interdependence of Myrica cerifera seedlings and the nodule forming actinomycete, Frankia, in a coastal environment [link]Paper  abstract   bibtex   
The shrub, Myrica cerifera, and the nitrogen-fixing bacterium, Frankia, form a symbiotic relationship that is important for seedling establishment on nutrient poor coastal soils. To determine potential interdependence, the spatial distribution of host plant seedlings was examined in relation to the root symbiont on a Virginia barrier island. Spatial patterns for both species were related to microtopography and soil chlorides. Myrica cerifera seedlings were more common in the swale region than on the dune crests or slopes. A bioassay quantified the extent of Frankia distribution within a recently formed swale where the shrub seedlings were invading. Frankia occurred throughout the swale, but was absent within 20 m of the high tide line. Frankia was found in areas devoid of the host plant; M, cerifera did not occur at similar to 43% of the locations where Frankia was present. In contrast, the host plant seedlings were limited to areas that contained Frankia. Soil chlorides where M. cerifera seedlings occurred were lower than locations devoid of the host plant. Similarly, soil chlorides where Frankia was present were lower when compared to areas without the root symbiont. Although influenced by microtopography and soil chlorides, the successful establishment and small-scale distribution of M. cerifera seedlings in coastal soils depends on the presence of Frankia.
@article{wijnholds_interdependence_2000,
	title = {Interdependence of {Myrica} cerifera seedlings and the nodule forming actinomycete, {Frankia}, in a coastal environment},
	volume = {16},
	url = {://000085747700013},
	abstract = {The shrub, Myrica cerifera, and the nitrogen-fixing bacterium, Frankia, form a symbiotic relationship that is important for seedling establishment on nutrient poor coastal soils. To determine potential interdependence, the spatial distribution of host plant seedlings was examined in relation to the root symbiont on a Virginia barrier island. Spatial patterns for both species were related to microtopography and soil chlorides. Myrica cerifera seedlings were more common in the swale region than on the dune crests or slopes. A bioassay quantified the extent of Frankia distribution within a recently formed swale where the shrub seedlings were invading. Frankia occurred throughout the swale, but was absent within 20 m of the high tide line. Frankia was found in areas devoid of the host plant; M, cerifera did not occur at similar to 43\% of the locations where Frankia was present. In contrast, the host plant seedlings were limited to areas that contained Frankia. Soil chlorides where M. cerifera seedlings occurred were lower than locations devoid of the host plant. Similarly, soil chlorides where Frankia was present were lower when compared to areas without the root symbiont. Although influenced by microtopography and soil chlorides, the successful establishment and small-scale distribution of M. cerifera seedlings in coastal soils depends on the presence of Frankia.},
	number = {1},
	journal = {Journal of Coastal Research},
	author = {Wijnholds, A. and Young, D. R.},
	year = {2000},
	keywords = {VCR, vegetation, ecosystem, soils, shrub, colonization, establishment, dynamics, Virginia, nitrogen fixation, symbiosis, fixation, edaphic factors, infective frankia, nitrogenase activity, shrub thicket, succession barrier-island}
}
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