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New pasture plants intensify invasive species risk

New pasture plants intensify invasive species risk
New pasture plants intensify invasive species risk
Agricultural intensification is critical to meet global food demand, but intensification threatens native species and degrades ecosystems. Sustainable intensification (SI) is heralded as a new approach for enabling growth in agriculture while minimizing environmental impacts. However, the SI literature has overlooked a major environmental risk. Using data from eight countries on six continents, we show that few governments regulate conventionally bred pasture taxa to limit threats to natural areas, even though most agribusinesses promote taxa with substantial weed risk. New pasture taxa (including species, subspecies, varieties, cultivars, and plant-endophyte combinations) are bred with characteristics typical of invasive species and environmental weeds. By introducing novel genetic and endophyte variation, pasture taxa are imbued with additional capacity for invasion and environmental impact. New strategies to prevent future problems are urgently needed. We highlight opportunities for researchers, agribusiness, and consumers to reduce environmental risks associated with new pasture taxa. We also emphasize four main approaches that governments could consider as they build new policies to limit weed risks, including (i) national lists of taxa that are prohibited based on environmental risk; (ii) a weed risk assessment for all new taxa; (iii) a program to rapidly detect and control new taxa that invade natural areas; and (iv) the polluter-pays principle, so that if a taxon becomes an environmental weed, industry pays for its management. There is mounting pressure to increase livestock production. With foresight and planning, growth in agriculture can be achieved sustainably provided that the scope of SI expands to encompass environmental weed risks.
0027-8424
16622-16627
Driscoll, Don A.
34a28f63-cd8f-42b3-bb80-00dec0267078
Catford, Jane
c80a4529-b7cb-4d36-aba8-f38de01ce729
Barney, Jacob N.
a791816f-41bf-47a8-a312-d715bccd9317
Hulme, Philip E.
2d1de29c-21f0-4378-99e3-d500beb72598
Inderjit,
1deaae16-3e08-4a72-bf23-b76d01fc962d
Martin, Tara G.
e6c7089a-d159-49b2-a6c8-c69dcc050d0c
Pauchard, Aníbal
efb3d0d4-473c-4b6f-9bff-d37f311e07ea
Pyšek, Petr
ec5ab156-c505-4be5-b72f-748e7147dafa
Richardson, David M.
3fd36dcd-59ad-4371-9a83-17cc98c6ce81
Riley, Sophie
dac207d1-a059-469c-ae5a-1682ede9316f
Visser, Vernon
b2daf62f-8c17-4e39-a53a-cbe4ce364ab5
Driscoll, Don A.
34a28f63-cd8f-42b3-bb80-00dec0267078
Catford, Jane
c80a4529-b7cb-4d36-aba8-f38de01ce729
Barney, Jacob N.
a791816f-41bf-47a8-a312-d715bccd9317
Hulme, Philip E.
2d1de29c-21f0-4378-99e3-d500beb72598
Inderjit,
1deaae16-3e08-4a72-bf23-b76d01fc962d
Martin, Tara G.
e6c7089a-d159-49b2-a6c8-c69dcc050d0c
Pauchard, Aníbal
efb3d0d4-473c-4b6f-9bff-d37f311e07ea
Pyšek, Petr
ec5ab156-c505-4be5-b72f-748e7147dafa
Richardson, David M.
3fd36dcd-59ad-4371-9a83-17cc98c6ce81
Riley, Sophie
dac207d1-a059-469c-ae5a-1682ede9316f
Visser, Vernon
b2daf62f-8c17-4e39-a53a-cbe4ce364ab5

Driscoll, Don A., Catford, Jane, Barney, Jacob N., Hulme, Philip E., Inderjit, , Martin, Tara G., Pauchard, Aníbal, Pyšek, Petr, Richardson, David M., Riley, Sophie and Visser, Vernon (2014) New pasture plants intensify invasive species risk. Proceedings of the National Academy of Sciences, 111 (46), 16622-16627. (doi:10.1073/pnas.1409347111).

Record type: Article

Abstract

Agricultural intensification is critical to meet global food demand, but intensification threatens native species and degrades ecosystems. Sustainable intensification (SI) is heralded as a new approach for enabling growth in agriculture while minimizing environmental impacts. However, the SI literature has overlooked a major environmental risk. Using data from eight countries on six continents, we show that few governments regulate conventionally bred pasture taxa to limit threats to natural areas, even though most agribusinesses promote taxa with substantial weed risk. New pasture taxa (including species, subspecies, varieties, cultivars, and plant-endophyte combinations) are bred with characteristics typical of invasive species and environmental weeds. By introducing novel genetic and endophyte variation, pasture taxa are imbued with additional capacity for invasion and environmental impact. New strategies to prevent future problems are urgently needed. We highlight opportunities for researchers, agribusiness, and consumers to reduce environmental risks associated with new pasture taxa. We also emphasize four main approaches that governments could consider as they build new policies to limit weed risks, including (i) national lists of taxa that are prohibited based on environmental risk; (ii) a weed risk assessment for all new taxa; (iii) a program to rapidly detect and control new taxa that invade natural areas; and (iv) the polluter-pays principle, so that if a taxon becomes an environmental weed, industry pays for its management. There is mounting pressure to increase livestock production. With foresight and planning, growth in agriculture can be achieved sustainably provided that the scope of SI expands to encompass environmental weed risks.

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More information

e-pub ahead of print date: 3 November 2014
Published date: 18 November 2014
Organisations: Environmental

Identifiers

Local EPrints ID: 400868
URI: http://eprints.soton.ac.uk/id/eprint/400868
ISSN: 0027-8424
PURE UUID: fd66ecd0-c994-45b5-b18a-e589d33a83fd
ORCID for Jane Catford: ORCID iD orcid.org/0000-0003-0582-5960

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Date deposited: 28 Sep 2016 15:19
Last modified: 15 Mar 2024 02:30

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Contributors

Author: Don A. Driscoll
Author: Jane Catford ORCID iD
Author: Jacob N. Barney
Author: Philip E. Hulme
Author: Inderjit
Author: Tara G. Martin
Author: Aníbal Pauchard
Author: Petr Pyšek
Author: David M. Richardson
Author: Sophie Riley
Author: Vernon Visser

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