Next generation application of DPSIR for sustainable policy implementation

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Next generation application of DPSIR for sustainable policy implementation. / Carnohan, Shane A.; Trier, Xenia; Liu, Suxia; Clausen, Lauge P.W.; Clifford-Holmes, Jai K.; Hansen, Steffen F.; Benini, Lorenzo; McKnight, Ursula S.

In: Current Research in Environmental Sustainability, Vol. 5, 100201, 2023.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Carnohan, SA, Trier, X, Liu, S, Clausen, LPW, Clifford-Holmes, JK, Hansen, SF, Benini, L & McKnight, US 2023, 'Next generation application of DPSIR for sustainable policy implementation', Current Research in Environmental Sustainability, vol. 5, 100201. https://doi.org/10.1016/j.crsust.2022.100201

APA

Carnohan, S. A., Trier, X., Liu, S., Clausen, L. P. W., Clifford-Holmes, J. K., Hansen, S. F., Benini, L., & McKnight, U. S. (2023). Next generation application of DPSIR for sustainable policy implementation. Current Research in Environmental Sustainability, 5, [100201]. https://doi.org/10.1016/j.crsust.2022.100201

Vancouver

Carnohan SA, Trier X, Liu S, Clausen LPW, Clifford-Holmes JK, Hansen SF et al. Next generation application of DPSIR for sustainable policy implementation. Current Research in Environmental Sustainability. 2023;5. 100201. https://doi.org/10.1016/j.crsust.2022.100201

Author

Carnohan, Shane A. ; Trier, Xenia ; Liu, Suxia ; Clausen, Lauge P.W. ; Clifford-Holmes, Jai K. ; Hansen, Steffen F. ; Benini, Lorenzo ; McKnight, Ursula S. / Next generation application of DPSIR for sustainable policy implementation. In: Current Research in Environmental Sustainability. 2023 ; Vol. 5.

Bibtex

@article{700632ed778e46fb8e6005f05e0667f1,
title = "Next generation application of DPSIR for sustainable policy implementation",
abstract = "As our societies and natural systems are becoming ever more interconnected, it is critical that sustainable management can adapt to new knowledge from both the ecological and the social domains, and act on it in a timely and effective manner. This need is amplifying in the Anthropocene as we are approaching the limit for humanity's safe operating space, leading to irreversible change to ecosystem function. This urgently requires increased attention and concern regarding the information feedbacks between the silos of science, policy and society. A web of policies is in place to protect the health of people and the planet, but to ensure that they are effective we need frameworks to make sense of real-world complexities and interlinkages between multiple factors. The Drivers-Pressures-State-Impacts-Response (DPSIR) framework was created for this purpose, however, its' implicit focus on 1) analytical and 2) procedural aspects must be made explicit, to enable coordination across silos and studies. Continued creation of new DPSIR derivatives may limit its impact, while more explicit coordination between these two aspects can improve the effectiveness of DPSIR while retaining its flexibility. We thus propose five elements to support sustainable policy development and implementation using DPSIR: 1) iteration; 2) risk, uncertainty and analytical bias; 3) flexible integration; 4) use of quantitative methods, and; 5) clear and standard definitions for DPSIR. We illustrate these elements in four cases: Three highlight missing feedbacks when DPSIR elements are not made explicit and a fourth case – on per-and-polyfluorinated alkyl substances (PFAS) – showing a potential roadmap to successful policy implementation using DPSIR.",
keywords = "DPSIR, European Green Deal, Knowledge co-production, PFAS, Systems thinking",
author = "Carnohan, {Shane A.} and Xenia Trier and Suxia Liu and Clausen, {Lauge P.W.} and Clifford-Holmes, {Jai K.} and Hansen, {Steffen F.} and Lorenzo Benini and McKnight, {Ursula S.}",
note = "Publisher Copyright: {\textcopyright} 2022 The Authors",
year = "2023",
doi = "10.1016/j.crsust.2022.100201",
language = "English",
volume = "5",
journal = "Current Research in Environmental Sustainability",
issn = "2666-0490",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Next generation application of DPSIR for sustainable policy implementation

AU - Carnohan, Shane A.

AU - Trier, Xenia

AU - Liu, Suxia

AU - Clausen, Lauge P.W.

AU - Clifford-Holmes, Jai K.

AU - Hansen, Steffen F.

AU - Benini, Lorenzo

AU - McKnight, Ursula S.

N1 - Publisher Copyright: © 2022 The Authors

PY - 2023

Y1 - 2023

N2 - As our societies and natural systems are becoming ever more interconnected, it is critical that sustainable management can adapt to new knowledge from both the ecological and the social domains, and act on it in a timely and effective manner. This need is amplifying in the Anthropocene as we are approaching the limit for humanity's safe operating space, leading to irreversible change to ecosystem function. This urgently requires increased attention and concern regarding the information feedbacks between the silos of science, policy and society. A web of policies is in place to protect the health of people and the planet, but to ensure that they are effective we need frameworks to make sense of real-world complexities and interlinkages between multiple factors. The Drivers-Pressures-State-Impacts-Response (DPSIR) framework was created for this purpose, however, its' implicit focus on 1) analytical and 2) procedural aspects must be made explicit, to enable coordination across silos and studies. Continued creation of new DPSIR derivatives may limit its impact, while more explicit coordination between these two aspects can improve the effectiveness of DPSIR while retaining its flexibility. We thus propose five elements to support sustainable policy development and implementation using DPSIR: 1) iteration; 2) risk, uncertainty and analytical bias; 3) flexible integration; 4) use of quantitative methods, and; 5) clear and standard definitions for DPSIR. We illustrate these elements in four cases: Three highlight missing feedbacks when DPSIR elements are not made explicit and a fourth case – on per-and-polyfluorinated alkyl substances (PFAS) – showing a potential roadmap to successful policy implementation using DPSIR.

AB - As our societies and natural systems are becoming ever more interconnected, it is critical that sustainable management can adapt to new knowledge from both the ecological and the social domains, and act on it in a timely and effective manner. This need is amplifying in the Anthropocene as we are approaching the limit for humanity's safe operating space, leading to irreversible change to ecosystem function. This urgently requires increased attention and concern regarding the information feedbacks between the silos of science, policy and society. A web of policies is in place to protect the health of people and the planet, but to ensure that they are effective we need frameworks to make sense of real-world complexities and interlinkages between multiple factors. The Drivers-Pressures-State-Impacts-Response (DPSIR) framework was created for this purpose, however, its' implicit focus on 1) analytical and 2) procedural aspects must be made explicit, to enable coordination across silos and studies. Continued creation of new DPSIR derivatives may limit its impact, while more explicit coordination between these two aspects can improve the effectiveness of DPSIR while retaining its flexibility. We thus propose five elements to support sustainable policy development and implementation using DPSIR: 1) iteration; 2) risk, uncertainty and analytical bias; 3) flexible integration; 4) use of quantitative methods, and; 5) clear and standard definitions for DPSIR. We illustrate these elements in four cases: Three highlight missing feedbacks when DPSIR elements are not made explicit and a fourth case – on per-and-polyfluorinated alkyl substances (PFAS) – showing a potential roadmap to successful policy implementation using DPSIR.

KW - DPSIR

KW - European Green Deal

KW - Knowledge co-production

KW - PFAS

KW - Systems thinking

U2 - 10.1016/j.crsust.2022.100201

DO - 10.1016/j.crsust.2022.100201

M3 - Journal article

AN - SCOPUS:85144076228

VL - 5

JO - Current Research in Environmental Sustainability

JF - Current Research in Environmental Sustainability

SN - 2666-0490

M1 - 100201

ER -

ID: 333776008