Molecular detection of invasive species in heterogeneous mixtures using a microfluidic carbon nanotube platform.

Molecular detection of invasive species in heterogeneous mixtures using a microfluidic carbon nanotube platform.

Screening methods to prevent introductions of invasive species are critical for the protection of environmental and economic benefits provided by native species and uninvaded ecosystems. Coastal ecosystems worldwide remain vulnerable to damage from aquatic species introductions, particularly via bal...

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Main Authors: Andrew R Mahon, Matthew A Barnes, Satyajyoti Senapati, Jeffrey L Feder, John A Darling, Hsueh-Chia Chang, David M Lodge
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3041796?pdf=render
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spelling doaj-e3b95ddfdfad4ca88375583d7f02bbe62020-11-25T01:45:56ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-01-0162e1728010.1371/journal.pone.0017280Molecular detection of invasive species in heterogeneous mixtures using a microfluidic carbon nanotube platform.Andrew R MahonMatthew A BarnesSatyajyoti SenapatiJeffrey L FederJohn A DarlingHsueh-Chia ChangDavid M LodgeScreening methods to prevent introductions of invasive species are critical for the protection of environmental and economic benefits provided by native species and uninvaded ecosystems. Coastal ecosystems worldwide remain vulnerable to damage from aquatic species introductions, particularly via ballast water discharge from ships. Because current ballast management practices are not completely effective, rapid and sensitive screening methods are needed for on-site testing of ships in transit. Here, we describe a detection technology based on a microfluidic chip containing DNA oligonucleotide functionalized carbon nanotubes. We demonstrate the efficacy of the chip using three ballast-transported species either established (Dreissena bugensis) or of potential threat (Eriocheir sinensis and Limnoperna fortuneii) to the Laurentian Great Lakes. With further refinement for on-board application, the technology could lead to real-time ballast water screening to improve ship-specific management and control decisions.http://europepmc.org/articles/PMC3041796?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Andrew R Mahon
Matthew A Barnes
Satyajyoti Senapati
Jeffrey L Feder
John A Darling
Hsueh-Chia Chang
David M Lodge
spellingShingle Andrew R Mahon
Matthew A Barnes
Satyajyoti Senapati
Jeffrey L Feder
John A Darling
Hsueh-Chia Chang
David M Lodge
Molecular detection of invasive species in heterogeneous mixtures using a microfluidic carbon nanotube platform.
PLoS ONE
author_facet Andrew R Mahon
Matthew A Barnes
Satyajyoti Senapati
Jeffrey L Feder
John A Darling
Hsueh-Chia Chang
David M Lodge
author_sort Andrew R Mahon
title Molecular detection of invasive species in heterogeneous mixtures using a microfluidic carbon nanotube platform.
title_short Molecular detection of invasive species in heterogeneous mixtures using a microfluidic carbon nanotube platform.
title_full Molecular detection of invasive species in heterogeneous mixtures using a microfluidic carbon nanotube platform.
title_fullStr Molecular detection of invasive species in heterogeneous mixtures using a microfluidic carbon nanotube platform.
title_full_unstemmed Molecular detection of invasive species in heterogeneous mixtures using a microfluidic carbon nanotube platform.
title_sort molecular detection of invasive species in heterogeneous mixtures using a microfluidic carbon nanotube platform.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-01-01
description Screening methods to prevent introductions of invasive species are critical for the protection of environmental and economic benefits provided by native species and uninvaded ecosystems. Coastal ecosystems worldwide remain vulnerable to damage from aquatic species introductions, particularly via ballast water discharge from ships. Because current ballast management practices are not completely effective, rapid and sensitive screening methods are needed for on-site testing of ships in transit. Here, we describe a detection technology based on a microfluidic chip containing DNA oligonucleotide functionalized carbon nanotubes. We demonstrate the efficacy of the chip using three ballast-transported species either established (Dreissena bugensis) or of potential threat (Eriocheir sinensis and Limnoperna fortuneii) to the Laurentian Great Lakes. With further refinement for on-board application, the technology could lead to real-time ballast water screening to improve ship-specific management and control decisions.
url http://europepmc.org/articles/PMC3041796?pdf=render
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