Relative impacts of eutrophication and consumers on shoreline stability in a salt marsh.
Autor
Molina, Lucas Matias
Leon, Nicolas
Barrio, Daniel Alejandro
Institución
Resumen
Fil: Molina, Lucas Matias. Universidad Nacional de Río Negro. Centro De Investigaciones Tecnológicas. Río Negro, Argentina. Fil: Leon, Nicolas. Universidad Nacional de Río Negro. Río Negro, Argentina. Fil: Barrio, Daniel Alejandro. Universidad Nacional de Río Negro. Centro De Investigaciones Tecnológicas. Río Negro, Argentina. Salt marshes are highly productive areas that provide important ecosystem services such as storm
protection for coastal areas, nutrient removal and carbon sequestration. Salt marshes losses have
accelerated in recent decades worldwide. The objective of this study was to investigate the role of
eutrophication and consumers on shoreline stability in a salt marsh through answer research
questions like “Are crabs promoting marsh edge erosion? What is the relative importance of
nutrient enrichment and crab herbivory on saltmarsh edge erosion? Which geotechnical
parameters of the marsh sediment do crabs alter? Can crabs indirectly affect marsh edge erosion
by affecting belowground biomass of Spartina alterniflora?” here we present data from a series of
surveys and two manipulative experiment to (i) evaluate the effects of nutrient enrichment and
herbivory, by the crab Neohelice granulate, on the dynamics of S. alterniflora stems and
belowground biomass nutrient-enrichment experiment and the (ii) impacts of crab on shoreline
erosion on marsh edges. The nutrient enrichment experiment consisted of a fully factorial design
(2×2; n=8) with the following treatments: (i) with herbivory (controls) (ii) with herbivory and nutrient
addition (iii) without herbivory and with nutrient addition (exclosures 75×75 cm), (iv) without
herbivory and without nutrient addition, (v) controls for cage effects (exclosures with three sides
instead of four). The experiment was deployed from september 2017 to abril 2019. Nutrient
additions consisted of doses of 60 g of a slow-release pelletized fertilizer (29% N, 5% P, and 5% K)
per plot per month. The results showed an increased above-ground leaf biomass when the nutrient
load increases, in conjunction with the predatory pressure, measured as percentage of bitten leaf.
The number of crab burrows was also higher with nutrient addition, being the below-ground
biomass lower in the enrichment treatments. Our study reveals that nutrient enrichment, as a
measure of eutrophication, decrease the stabilizing effects of salt marshes plants due a lower
belowground values detected. The nutrient enrichment decreases the aboveground/belowground
ratio, reducing the stability of the sediment aggregates. These effects are potentiated by the
activity of burrowing crabs, thus accelerating the erosion risk of salt marshes edges.