Defining the biosecurity risk posed by transported soil: Effects of storage time and environmental exposure on survival of soil biota

Defining the biosecurity risk posed by transported soil: Effects of storage time and environmental exposure on survival of soil biota

Soil frequently occurs as a contaminant on numerous sea, land and air transport pathways. It can carry unwanted invasive species, is widely recognized as a biosecurity risk, and is usually strictly regulated by biosecurity authorities. However, little is known about relative risk l...

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Main Authors: Mark R. McNeill, Craig B. Phillips, Andrew P. Robinson, Lee Aalders, Nicky Richards, Sandra Young, Claire Dowsett, Trevor James, Nigel Bell
Format: Article
Language:English
Published: Pensoft Publishers 2017-01-01
Series:NeoBiota
Online Access:http://neobiota.pensoft.net/articles.php?id=9784
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spelling doaj-24c86860b7ff4ba5bbf3a6f0de564ec52020-11-25T01:35:43ZengPensoft PublishersNeoBiota1619-00331314-24882017-01-0132658810.3897/neobiota.32.97849784Defining the biosecurity risk posed by transported soil: Effects of storage time and environmental exposure on survival of soil biotaMark R. McNeill0Craig B. Phillips1Andrew P. Robinson2Lee Aalders3Nicky Richards4Sandra Young5Claire Dowsett6Trevor James7Nigel Bell8AgResearchAgResearchCEBRAAgResearchAgResearchAgResearchAgResearchAgResearchAgResearch Soil frequently occurs as a contaminant on numerous sea, land and air transport pathways. It can carry unwanted invasive species, is widely recognized as a biosecurity risk, and is usually strictly regulated by biosecurity authorities. However, little is known about relative risk levels between pathways, thus authorities have limited capability to identify and target the riskiest soil pathways for management. We conducted a an experiment to test the hypotheses that biosecurity risks from soil organisms will increase both with declining transport duration and with increasing protection from environmental extremes. Soil was collected from two sites, a native forest remnant and an orchard, and stored on, in and under sea containers, or in cupboards, and assayed after 0, 3, 6 and 12 months for bacteria, fungi, nematodes and seeds. Results showed that viability of Pseudomonas spp., bacteria, nematodes and plants declined over 12 months, irrespective of soil source. Also, mortality of most biota was higher when exposed to sunlight, moisture and desiccation than when protected. However, bacterial and fungal numbers were higher in exposed environments, possibly due to ongoing colonization of exposed soil by airborne propagules. The results were consistent with our observations of organisms in soil intercepted from airports and sea ports, and indicated there is potential to rank risks from transported soils based partly on transport duration and environmental exposure. This would help authorities to optimally allocate management resources according to pathway-specific risks. http://neobiota.pensoft.net/articles.php?id=9784
collection DOAJ
language English
format Article
sources DOAJ
author Mark R. McNeill
Craig B. Phillips
Andrew P. Robinson
Lee Aalders
Nicky Richards
Sandra Young
Claire Dowsett
Trevor James
Nigel Bell
spellingShingle Mark R. McNeill
Craig B. Phillips
Andrew P. Robinson
Lee Aalders
Nicky Richards
Sandra Young
Claire Dowsett
Trevor James
Nigel Bell
Defining the biosecurity risk posed by transported soil: Effects of storage time and environmental exposure on survival of soil biota
NeoBiota
author_facet Mark R. McNeill
Craig B. Phillips
Andrew P. Robinson
Lee Aalders
Nicky Richards
Sandra Young
Claire Dowsett
Trevor James
Nigel Bell
author_sort Mark R. McNeill
title Defining the biosecurity risk posed by transported soil: Effects of storage time and environmental exposure on survival of soil biota
title_short Defining the biosecurity risk posed by transported soil: Effects of storage time and environmental exposure on survival of soil biota
title_full Defining the biosecurity risk posed by transported soil: Effects of storage time and environmental exposure on survival of soil biota
title_fullStr Defining the biosecurity risk posed by transported soil: Effects of storage time and environmental exposure on survival of soil biota
title_full_unstemmed Defining the biosecurity risk posed by transported soil: Effects of storage time and environmental exposure on survival of soil biota
title_sort defining the biosecurity risk posed by transported soil: effects of storage time and environmental exposure on survival of soil biota
publisher Pensoft Publishers
series NeoBiota
issn 1619-0033
1314-2488
publishDate 2017-01-01
description Soil frequently occurs as a contaminant on numerous sea, land and air transport pathways. It can carry unwanted invasive species, is widely recognized as a biosecurity risk, and is usually strictly regulated by biosecurity authorities. However, little is known about relative risk levels between pathways, thus authorities have limited capability to identify and target the riskiest soil pathways for management. We conducted a an experiment to test the hypotheses that biosecurity risks from soil organisms will increase both with declining transport duration and with increasing protection from environmental extremes. Soil was collected from two sites, a native forest remnant and an orchard, and stored on, in and under sea containers, or in cupboards, and assayed after 0, 3, 6 and 12 months for bacteria, fungi, nematodes and seeds. Results showed that viability of Pseudomonas spp., bacteria, nematodes and plants declined over 12 months, irrespective of soil source. Also, mortality of most biota was higher when exposed to sunlight, moisture and desiccation than when protected. However, bacterial and fungal numbers were higher in exposed environments, possibly due to ongoing colonization of exposed soil by airborne propagules. The results were consistent with our observations of organisms in soil intercepted from airports and sea ports, and indicated there is potential to rank risks from transported soils based partly on transport duration and environmental exposure. This would help authorities to optimally allocate management resources according to pathway-specific risks.
url http://neobiota.pensoft.net/articles.php?id=9784
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