Data from: Connectivity and zebra mussel invasion offer short‐term buffering of eutrophication impacts on floodplain lake landscape biodiversity

Aim: To investigate if connectivity and zebra mussel (Dreissena polymorpha) occurrence can mitigate effects of eutrophication in a lowland lake landscape. Location: Upper Lough Erne, Northern Ireland, UK. Methods: Data on environment, macrophytes and invertebrates were assembled for three basins of...

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Bibliographic Details
Main Authors: Salgado, Jorge, Sayer, Carl D., Brooks, Stephen J., Davidson, Thomas A., Baker, Ambroise G., Willby, Nigel, Patmore, Ian R., Goldmsith, Ben, Bennion, Helen, Okamura, Beth
Format: Other/Unknown Material
Language:unknown
Published: Zenodo 2019
Subjects:
Potamogeton obtusifolius
Potamogeton gramineus
Pagastiella
Nitella mucronata var. gracillima
Psetroclaudius
Einfedia sisticus
Eleocharis acicularis
macrophytes
Pisidium spp
Litorella uniflora
Sparganium emersum
Simocephalus spp
Ceratophyllum demersum
Callitriche spp
Paratendypes albimanus
Cristatella mucedo
Najas flexilis
Potamogeton ploygonifolius
Procladius
Potamogeton pectinatus
Plumatella spp
Lemna minor
asymmetric eigenvector maps
Tanytarsus lactenses
Potamogeton x nitens
Corynoceara artica
Psetroclaudius barbimanus
Potamogeton lucens
Stenochironomus
Polypedilum type A
Polypedilum nubeculosum
Cricotopus trifasciatus
Microtendipes pedellus
Elodea canadensis
Potamogeton filiformis
Nymphaea alba
Bytthinia tentaculata
Dreissena polymorpha
Myriophyllum spicatum
shallow lakes
Nitella flexilis agg
Synorthocladius
Chara virgata
Psetroclaudius sordidellus
Cricotopus type C
Pseudochironomus
Stictochironomus rosenschoeldi
Potamogeton pusillus
Glyptotendipes severini
Microchironomus
artica
Nitella flexilis
Online Access:https://doi.org/10.5061/dryad.3jj548d
Description
Summary:Aim: To investigate if connectivity and zebra mussel (Dreissena polymorpha) occurrence can mitigate effects of eutrophication in a lowland lake landscape. Location: Upper Lough Erne, Northern Ireland, UK. Methods: Data on environment, macrophytes and invertebrates were assembled for three basins of a large central lake and its satellite floodplain lakes via field surveys and paleolimnological analyses. Space-time interaction analyses of paleoecological data were compared pre-1950 and post-1950. Multivariate analyses examined how connectivity, environment, and zebra mussels influenced contemporary lake communities, and explain their divergence from historical communities in the past. Results: Pre-1950, we found high community variation across sites and low within-lake variation in macrophytes, but progressive eutrophication accentuated within-lake community variation after 1950. Partitioning analysis showed larger effects of connectivity than nutrient enrichment on contemporary macrophyte composition, while local effects structured invertebrate communities. Three clusters of lakes were revealed according to variation in macrophyte composition, isolation from the central lake and nutrient enrichment: Group 1– the central lake and 6 nearby lakes were meso-eutrophic (TP=66.7±47.6 μg/l; TN=0.79±0.41 mg/l) and had the highest zebra mussel abundances and organismal biodiversity; Group 2– 8 eutrophic (TP= 112±36.6 μg/l; TN=1.25±0.5 mg/l) and connected lakes; Group 3– 7 isolated and hypertrophic (TP=163.2±101.5 μg/l; TN=1.55±0.3 mg/l) lakes. Pre-1950 paleolimnological data for macrophytes and invertebrates for 5 lakes and a basin in the central lake most resembled extant lake communities of Group 1. However, paleo-records revealed that macrophytes and invertebrates subsequently converged towards those of Groups 2 and 3. Main conclusions: Our study reveals that the central "mother" lake acts as a hub for preserving biodiversity via shared hydrological connectivity with satellite lakes and high zebra mussel abundances. ...

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