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Can macrophyte harvesting from eutrophic water close the loop on nutrient loss from agricultural land? / Quilliam, R.S.; van Niekerk, M.A.; Chadwick, D.R.; Cross, P.; Hanley, N.; Jones, D.L.; Vinten, A.J.; Willby, N.; Oliver, D.M.

In: Journal of Environmental Management, Vol. 152, 07.02.2015, p. 210-217.

Research output: Contribution to journalArticle

HarvardHarvard

Quilliam, RS, van Niekerk, MA, Chadwick, DR, Cross, P, Hanley, N, Jones, DL, Vinten, AJ, Willby, N & Oliver, DM 2015, 'Can macrophyte harvesting from eutrophic water close the loop on nutrient loss from agricultural land?', Journal of Environmental Management, vol. 152, pp. 210-217. https://doi.org/10.1016/j.jenvman.2015.01.046

APA

Quilliam, R. S., van Niekerk, M. A., Chadwick, D. R., Cross, P., Hanley, N., Jones, D. L., ... Oliver, D. M. (2015). Can macrophyte harvesting from eutrophic water close the loop on nutrient loss from agricultural land? Journal of Environmental Management, 152, 210-217. https://doi.org/10.1016/j.jenvman.2015.01.046

CBE

Quilliam RS, van Niekerk MA, Chadwick DR, Cross P, Hanley N, Jones DL, Vinten AJ, Willby N, Oliver DM. 2015. Can macrophyte harvesting from eutrophic water close the loop on nutrient loss from agricultural land?. Journal of Environmental Management. 152:210-217. https://doi.org/10.1016/j.jenvman.2015.01.046

MLA

VancouverVancouver

Author

Quilliam, R.S. ; van Niekerk, M.A. ; Chadwick, D.R. ; Cross, P. ; Hanley, N. ; Jones, D.L. ; Vinten, A.J. ; Willby, N. ; Oliver, D.M. / Can macrophyte harvesting from eutrophic water close the loop on nutrient loss from agricultural land?. In: Journal of Environmental Management. 2015 ; Vol. 152. pp. 210-217.

RIS

TY - JOUR

T1 - Can macrophyte harvesting from eutrophic water close the loop on nutrient loss from agricultural land?

AU - Quilliam, R.S.

AU - van Niekerk, M.A.

AU - Chadwick, D.R.

AU - Cross, P.

AU - Hanley, N.

AU - Jones, D.L.

AU - Vinten, A.J.

AU - Willby, N.

AU - Oliver, D.M.

PY - 2015/2/7

Y1 - 2015/2/7

N2 - Eutrophication is a major water pollution issue and can lead to excessive growth of aquatic plant biomass (APB). However, the assimilation of nutrients into APB provides a significant target for their recovery and reuse, and harvesting problematic APB in impacted freshwater bodies offers a complementary approach to aquatic restoration, which could potentially deliver multiple wider ecosystem benefits. This critical review provides an assessment of opportunities and risks linked to nutrient recovery from agriculturally impacted water-bodies through the harvesting of APB for recycling and reuse as fertilisers and soil amendments. By evaluating the economic, social, environmental and health-related dimensions of this resource recovery from ‘waste’ process we propose a research agenda for closing the loop on nutrient transfer from land to water. We identify that environmental benefits are rarely, if ever, prioritised as essential criteria for the exploitation of resources from waste and yet this is key for addressing the current imbalance that sees environmental managers routinely undervaluing the wider environmental benefits that may accrue beyond resource recovery. The approach we advocate for the recycling of ‘waste’ APB nutrients is to couple the remediation of eutrophic waters with the sustainable production of feed and fertiliser, whilst providing multiple downstream benefits and minimising environmental trade-offs. This integrated ‘ecosystem services approach’ has the potential to holistically close the loop on agricultural nutrient loss, and thus sustainably recover finite resources such as phosphorus from waste.

AB - Eutrophication is a major water pollution issue and can lead to excessive growth of aquatic plant biomass (APB). However, the assimilation of nutrients into APB provides a significant target for their recovery and reuse, and harvesting problematic APB in impacted freshwater bodies offers a complementary approach to aquatic restoration, which could potentially deliver multiple wider ecosystem benefits. This critical review provides an assessment of opportunities and risks linked to nutrient recovery from agriculturally impacted water-bodies through the harvesting of APB for recycling and reuse as fertilisers and soil amendments. By evaluating the economic, social, environmental and health-related dimensions of this resource recovery from ‘waste’ process we propose a research agenda for closing the loop on nutrient transfer from land to water. We identify that environmental benefits are rarely, if ever, prioritised as essential criteria for the exploitation of resources from waste and yet this is key for addressing the current imbalance that sees environmental managers routinely undervaluing the wider environmental benefits that may accrue beyond resource recovery. The approach we advocate for the recycling of ‘waste’ APB nutrients is to couple the remediation of eutrophic waters with the sustainable production of feed and fertiliser, whilst providing multiple downstream benefits and minimising environmental trade-offs. This integrated ‘ecosystem services approach’ has the potential to holistically close the loop on agricultural nutrient loss, and thus sustainably recover finite resources such as phosphorus from waste.

U2 - 10.1016/j.jenvman.2015.01.046

DO - 10.1016/j.jenvman.2015.01.046

M3 - Article

VL - 152

SP - 210

EP - 217

JO - Journal of Environmental Management

T2 - Journal of Environmental Management

JF - Journal of Environmental Management

SN - 0301-4797

ER -