Global shocks, cascading disruptions, and (re-)connections

Institut for Geovidenskab og Naturforvaltning

Global shocks, cascading disruptions, and (re-)connections: viewing the COVID-19 pandemic as concurrent natural experiments to understand land system dynamics

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Standard

Global shocks, cascading disruptions, and (re-)connections : viewing the COVID-19 pandemic as concurrent natural experiments to understand land system dynamics. / Piquer-Rodríguez, María; Friis, Cecilie; Andriatsitohaina, R. Ntsiva N.; Boillat, Sébastien; Roig-Boixeda, Paula; Cortinovis, Chiara; Geneletti, Davide; Ibarrola-Rivas, Maria-Jose; Kelley, Lisa C.; Llopis, Jorge C.; Mack, Elizabeth A.; Nanni, Ana Sofía; Zaehringer, Julie G.; Henebry, Geoffrey M.

I: Landscape Ecology, Bind 38, 2023, s. 1147-1161.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Piquer-Rodríguez, M, Friis, C, Andriatsitohaina, RNN, Boillat, S, Roig-Boixeda, P, Cortinovis, C, Geneletti, D, Ibarrola-Rivas, M-J, Kelley, LC, Llopis, JC, Mack, EA, Nanni, AS, Zaehringer, JG & Henebry, GM 2023, 'Global shocks, cascading disruptions, and (re-)connections: viewing the COVID-19 pandemic as concurrent natural experiments to understand land system dynamics', Landscape Ecology, bind 38, s. 1147-1161. https://doi.org/10.1007/s10980-023-01604-2

APA

Piquer-Rodríguez, M., Friis, C., Andriatsitohaina, R. N. N., Boillat, S., Roig-Boixeda, P., Cortinovis, C., Geneletti, D., Ibarrola-Rivas, M-J., Kelley, L. C., Llopis, J. C., Mack, E. A., Nanni, A. S., Zaehringer, J. G., & Henebry, G. M. (2023). Global shocks, cascading disruptions, and (re-)connections: viewing the COVID-19 pandemic as concurrent natural experiments to understand land system dynamics. Landscape Ecology, 38, 1147-1161. https://doi.org/10.1007/s10980-023-01604-2

Vancouver

Piquer-Rodríguez M, Friis C, Andriatsitohaina RNN, Boillat S, Roig-Boixeda P, Cortinovis C o.a. Global shocks, cascading disruptions, and (re-)connections: viewing the COVID-19 pandemic as concurrent natural experiments to understand land system dynamics. Landscape Ecology. 2023;38:1147-1161. https://doi.org/10.1007/s10980-023-01604-2

Author

Piquer-Rodríguez, María ; Friis, Cecilie ; Andriatsitohaina, R. Ntsiva N. ; Boillat, Sébastien ; Roig-Boixeda, Paula ; Cortinovis, Chiara ; Geneletti, Davide ; Ibarrola-Rivas, Maria-Jose ; Kelley, Lisa C. ; Llopis, Jorge C. ; Mack, Elizabeth A. ; Nanni, Ana Sofía ; Zaehringer, Julie G. ; Henebry, Geoffrey M. / Global shocks, cascading disruptions, and (re-)connections : viewing the COVID-19 pandemic as concurrent natural experiments to understand land system dynamics. I: Landscape Ecology. 2023 ; Bind 38. s. 1147-1161.

Bibtex

@article{ffb8ffc46f2d478d8d9819ea73287217,

title = "Global shocks, cascading disruptions, and (re-)connections: viewing the COVID-19 pandemic as concurrent natural experiments to understand land system dynamics",

abstract = "ContextFor nearly three years, the COVID-19 pandemic has disrupted human well-being and livelihoods, communities, and economies in myriad ways with consequences for social-ecological systems across the planet. The pandemic represents a global shock in multiple dimensions that has already, and is likely to continue to have, far-reaching effects on land systems and on those depending on them for their livelihoods.ObjectivesWe focus on the observed effects of the pandemic on landscapes and people composing diverse land systems across the globe.MethodsWe highlight the interrelated impacts of the pandemic shock on the economic, health, and mobility dimensions of land systems using six vignettes from different land systems on four continents, analyzed through the lens of socio-ecological resilience and the telecoupling framework. We present preliminary comparative insights gathered through interviews, surveys, key informants, and authors' observations and propose new research avenues for land system scientists.ResultsThe pandemic's effects have been unevenly distributed, context-specific, and dependent on the multiple connections that link land systems across the globe.ConclusionsWe argue that the pandemic presents concurrent {"}natural experiments{"} that can advance our understanding of the intricate ways in which global shocks produce direct, indirect, and spillover effects on local and regional landscapes and land systems. These propagating shock effects disrupt existing connections, forge new connections, and re-establish former connections between peoples, landscapes, and land systems.",

keywords = "Socio-ecological land systems, Resilience, Telecoupling, Mobility, Governance, Conservation, COMMON AGRICULTURAL POLICY, SURFACE PHENOLOGY, COVER CHANGE, DEFORESTATION, ABANDONMENT, RESILIENCE, MIGRATION, RUSSIA",

author = "Mar{\'i}a Piquer-Rodr{\'i}guez and Cecilie Friis and Andriatsitohaina, {R. Ntsiva N.} and S{\'e}bastien Boillat and Paula Roig-Boixeda and Chiara Cortinovis and Davide Geneletti and Maria-Jose Ibarrola-Rivas and Kelley, {Lisa C.} and Llopis, {Jorge C.} and Mack, {Elizabeth A.} and Nanni, {Ana Sof{\'i}a} and Zaehringer, {Julie G.} and Henebry, {Geoffrey M.}",

year = "2023",

doi = "10.1007/s10980-023-01604-2",

language = "English",

volume = "38",

pages = "1147--1161",

journal = "Landscape Ecology",

issn = "0921-2973",

publisher = "Springer",

}

RIS

TY - JOUR

T1 - Global shocks, cascading disruptions, and (re-)connections

T2 - viewing the COVID-19 pandemic as concurrent natural experiments to understand land system dynamics

AU - Piquer-Rodríguez, María

AU - Friis, Cecilie

AU - Andriatsitohaina, R. Ntsiva N.

AU - Boillat, Sébastien

AU - Roig-Boixeda, Paula

AU - Cortinovis, Chiara

AU - Geneletti, Davide

AU - Ibarrola-Rivas, Maria-Jose

AU - Kelley, Lisa C.

AU - Llopis, Jorge C.

AU - Mack, Elizabeth A.

AU - Nanni, Ana Sofía

AU - Zaehringer, Julie G.

AU - Henebry, Geoffrey M.

PY - 2023

Y1 - 2023

N2 - ContextFor nearly three years, the COVID-19 pandemic has disrupted human well-being and livelihoods, communities, and economies in myriad ways with consequences for social-ecological systems across the planet. The pandemic represents a global shock in multiple dimensions that has already, and is likely to continue to have, far-reaching effects on land systems and on those depending on them for their livelihoods.ObjectivesWe focus on the observed effects of the pandemic on landscapes and people composing diverse land systems across the globe.MethodsWe highlight the interrelated impacts of the pandemic shock on the economic, health, and mobility dimensions of land systems using six vignettes from different land systems on four continents, analyzed through the lens of socio-ecological resilience and the telecoupling framework. We present preliminary comparative insights gathered through interviews, surveys, key informants, and authors' observations and propose new research avenues for land system scientists.ResultsThe pandemic's effects have been unevenly distributed, context-specific, and dependent on the multiple connections that link land systems across the globe.ConclusionsWe argue that the pandemic presents concurrent "natural experiments" that can advance our understanding of the intricate ways in which global shocks produce direct, indirect, and spillover effects on local and regional landscapes and land systems. These propagating shock effects disrupt existing connections, forge new connections, and re-establish former connections between peoples, landscapes, and land systems.

AB - ContextFor nearly three years, the COVID-19 pandemic has disrupted human well-being and livelihoods, communities, and economies in myriad ways with consequences for social-ecological systems across the planet. The pandemic represents a global shock in multiple dimensions that has already, and is likely to continue to have, far-reaching effects on land systems and on those depending on them for their livelihoods.ObjectivesWe focus on the observed effects of the pandemic on landscapes and people composing diverse land systems across the globe.MethodsWe highlight the interrelated impacts of the pandemic shock on the economic, health, and mobility dimensions of land systems using six vignettes from different land systems on four continents, analyzed through the lens of socio-ecological resilience and the telecoupling framework. We present preliminary comparative insights gathered through interviews, surveys, key informants, and authors' observations and propose new research avenues for land system scientists.ResultsThe pandemic's effects have been unevenly distributed, context-specific, and dependent on the multiple connections that link land systems across the globe.ConclusionsWe argue that the pandemic presents concurrent "natural experiments" that can advance our understanding of the intricate ways in which global shocks produce direct, indirect, and spillover effects on local and regional landscapes and land systems. These propagating shock effects disrupt existing connections, forge new connections, and re-establish former connections between peoples, landscapes, and land systems.

KW - Socio-ecological land systems

KW - Resilience

KW - Telecoupling

KW - Mobility

KW - Governance

KW - Conservation

KW - COMMON AGRICULTURAL POLICY

KW - SURFACE PHENOLOGY

KW - COVER CHANGE

KW - DEFORESTATION

KW - ABANDONMENT

KW - RESILIENCE

KW - MIGRATION

KW - RUSSIA

U2 - 10.1007/s10980-023-01604-2

DO - 10.1007/s10980-023-01604-2

M3 - Journal article

C2 - 37051136

VL - 38

SP - 1147

EP - 1161

JO - Landscape Ecology

JF - Landscape Ecology

SN - 0921-2973

ER -

ID: 356892938