Review article: Drought as a continuum – memory effects in interlinked hydrological, ecological, and social systems

Anne F. Van Loon; Sarra Kchouk; Alessia Matanó; Faranak Tootoonchi; Camila Alvarez-Garreton; Khalid E.A. Hassaballah; Minchao Wu; Marthe L.K. Wens; Anastasiya Shyrokaya; Elena Ridolfi; Riccardo Biella; Viorica Nagavciuc; Marlies H. Barendrecht; Ana Bastos; Louise Cavalcante; Franciska T. de Vries; Margaret Garcia; Johanna Mård; Ileen N. Streefkerk; Claudia Teutschbein; Roshanak Tootoonchi; Ruben Weesie; Valentin Aich; Juan P. Boisier; Giuliano Di Baldassarre; Yiheng Du; Mauricio Galleguillos; René Garreaud; Monica Ionita; Sina Khatami; Johanna K.L. Koehler; Charles H. Luce; Shreedhar Maskey; Heidi D. Mendoza; Moses N. Mwangi; Ilias G. Pechlivanidis; Germano G. Ribeiro Neto; Tirthankar Roy; Robert Stefanski; Patricia Trambauer; Elizabeth A. Koebele; Giulia Vico; Micha Werner

doi:10.5194/nhess-24-3173-2024

Review article: Drought as a continuum – memory effects in interlinked hydrological, ecological, and social systems

Anne F. Van Loon, Sarra Kchouk, Alessia Matanó, Faranak Tootoonchi, Camila Alvarez-Garreton, Khalid E.A. Hassaballah, Minchao Wu, Marthe L.K. Wens, Anastasiya Shyrokaya, Elena Ridolfi, Riccardo Biella, Viorica Nagavciuc, Marlies H. Barendrecht, Ana Bastos, Louise Cavalcante, Franciska T. de Vries, Margaret Garcia, Johanna Mård, Ileen N. Streefkerk, Claudia TeutschbeinRoshanak Tootoonchi, Ruben Weesie, Valentin Aich, Juan P. Boisier, Giuliano Di Baldassarre, Yiheng Du, Mauricio Galleguillos, René Garreaud, Monica Ionita, Sina Khatami, Johanna K.L. Koehler, Charles H. Luce, Shreedhar Maskey, Heidi D. Mendoza, Moses N. Mwangi, Ilias G. Pechlivanidis, Germano G. Ribeiro Neto, Tirthankar Roy, Robert Stefanski, Patricia Trambauer, Elizabeth A. Koebele, Giulia Vico, Micha Werner

Research output: Contribution to journal › Review article › peer-review

5 Scopus citations

Abstract

Droughts are often long-lasting phenomena, without a distinct start or end and with impacts cascading across sectors and systems, creating long-term legacies. Nevertheless, our current perceptions and management of droughts and their impacts are often event-based, which can limit the effective assessment of drought risks and reduction of drought impacts. Here, we advocate for changing this perspective and viewing drought as a hydrological–ecological–social continuum. We take a systems theory perspective and focus on how “memory” causes feedback and interactions between parts of the interconnected systems at different timescales. We first discuss the characteristics of the drought continuum with a focus on the hydrological, ecological, and social systems separately, and then we study the system of systems. Our analysis is based on a review of the literature and a study of five cases: Chile, the Colorado River basin in the USA, northeast Brazil, Kenya, and the Rhine River basin in northwest Europe. We find that the memories of past dry and wet periods, carried by both bio-physical (e.g. groundwater, vegetation) and social systems (e.g. people, governance), influence how future drought risk manifests. We identify four archetypes of drought dynamics: impact and recovery, slow resilience building, gradual collapse, and high resilience–big shock. The interactions between the hydrological, ecological, and social systems result in systems shifting between these types, which plays out differently in the five case studies. We call for more research on drought preconditions and recovery in different systems, on dynamics cascading between systems and triggering system changes, and on dynamic vulnerability and maladaptation. Additionally, we advocate for more continuous monitoring of drought hazards and impacts, modelling tools that better incorporate memories and adaptation responses, and management strategies that increase societal and institutional memory. This will help us to better deal with the complex hydrological–ecological–social drought continuum and identify effective pathways to adaptation and mitigation.

Original language	English
Pages (from-to)	3173-3205
Number of pages	33
Journal	Natural Hazards and Earth System Sciences
Volume	24
Issue number	9
DOIs	https://doi.org/10.5194/nhess-24-3173-2024
State	Published - 23 Sep 2024
Externally published	Yes

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10.5194/nhess-24-3173-2024

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Van Loon, A. F., Kchouk, S., Matanó, A., Tootoonchi, F., Alvarez-Garreton, C., Hassaballah, K. E. A., Wu, M., Wens, M. L. K., Shyrokaya, A., Ridolfi, E., Biella, R., Nagavciuc, V., Barendrecht, M. H., Bastos, A., Cavalcante, L., de Vries, F. T., Garcia, M., Mård, J., Streefkerk, I. N., ... Werner, M. (2024). Review article: Drought as a continuum – memory effects in interlinked hydrological, ecological, and social systems. Natural Hazards and Earth System Sciences, 24(9), 3173-3205. https://doi.org/10.5194/nhess-24-3173-2024

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title = "Review article: Drought as a continuum – memory effects in interlinked hydrological, ecological, and social systems",

abstract = "Droughts are often long-lasting phenomena, without a distinct start or end and with impacts cascading across sectors and systems, creating long-term legacies. Nevertheless, our current perceptions and management of droughts and their impacts are often event-based, which can limit the effective assessment of drought risks and reduction of drought impacts. Here, we advocate for changing this perspective and viewing drought as a hydrological–ecological–social continuum. We take a systems theory perspective and focus on how “memory” causes feedback and interactions between parts of the interconnected systems at different timescales. We first discuss the characteristics of the drought continuum with a focus on the hydrological, ecological, and social systems separately, and then we study the system of systems. Our analysis is based on a review of the literature and a study of five cases: Chile, the Colorado River basin in the USA, northeast Brazil, Kenya, and the Rhine River basin in northwest Europe. We find that the memories of past dry and wet periods, carried by both bio-physical (e.g. groundwater, vegetation) and social systems (e.g. people, governance), influence how future drought risk manifests. We identify four archetypes of drought dynamics: impact and recovery, slow resilience building, gradual collapse, and high resilience–big shock. The interactions between the hydrological, ecological, and social systems result in systems shifting between these types, which plays out differently in the five case studies. We call for more research on drought preconditions and recovery in different systems, on dynamics cascading between systems and triggering system changes, and on dynamic vulnerability and maladaptation. Additionally, we advocate for more continuous monitoring of drought hazards and impacts, modelling tools that better incorporate memories and adaptation responses, and management strategies that increase societal and institutional memory. This will help us to better deal with the complex hydrological–ecological–social drought continuum and identify effective pathways to adaptation and mitigation.",

author = "{Van Loon}, {Anne F.} and Sarra Kchouk and Alessia Matan{\'o} and Faranak Tootoonchi and Camila Alvarez-Garreton and Hassaballah, {Khalid E.A.} and Minchao Wu and Wens, {Marthe L.K.} and Anastasiya Shyrokaya and Elena Ridolfi and Riccardo Biella and Viorica Nagavciuc and Barendrecht, {Marlies H.} and Ana Bastos and Louise Cavalcante and {de Vries}, {Franciska T.} and Margaret Garcia and Johanna M{\aa}rd and Streefkerk, {Ileen N.} and Claudia Teutschbein and Roshanak Tootoonchi and Ruben Weesie and Valentin Aich and Boisier, {Juan P.} and Baldassarre, {Giuliano Di} and Yiheng Du and Mauricio Galleguillos and Ren{\'e} Garreaud and Monica Ionita and Sina Khatami and Koehler, {Johanna K.L.} and Luce, {Charles H.} and Shreedhar Maskey and Mendoza, {Heidi D.} and Mwangi, {Moses N.} and Pechlivanidis, {Ilias G.} and {Ribeiro Neto}, {Germano G.} and Tirthankar Roy and Robert Stefanski and Patricia Trambauer and Koebele, {Elizabeth A.} and Giulia Vico and Micha Werner",

note = "Publisher Copyright: Copyright: {\textcopyright} 2024 Anne F. Van Loon et al.",

year = "2024",

month = sep,

day = "23",

doi = "10.5194/nhess-24-3173-2024",

language = "English",

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pages = "3173--3205",

journal = "Natural Hazards and Earth System Sciences",

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Van Loon, AF, Kchouk, S, Matanó, A, Tootoonchi, F, Alvarez-Garreton, C, Hassaballah, KEA, Wu, M, Wens, MLK, Shyrokaya, A, Ridolfi, E, Biella, R, Nagavciuc, V, Barendrecht, MH, Bastos, A, Cavalcante, L, de Vries, FT, Garcia, M, Mård, J, Streefkerk, IN, Teutschbein, C, Tootoonchi, R, Weesie, R, Aich, V, Boisier, JP, Baldassarre, GD, Du, Y, Galleguillos, M, Garreaud, R, Ionita, M, Khatami, S, Koehler, JKL, Luce, CH, Maskey, S, Mendoza, HD, Mwangi, MN, Pechlivanidis, IG, Ribeiro Neto, GG, Roy, T, Stefanski, R, Trambauer, P, Koebele, EA, Vico, G & Werner, M 2024, 'Review article: Drought as a continuum – memory effects in interlinked hydrological, ecological, and social systems', Natural Hazards and Earth System Sciences, vol. 24, no. 9, pp. 3173-3205. https://doi.org/10.5194/nhess-24-3173-2024

TY - JOUR

T1 - Review article

T2 - Drought as a continuum – memory effects in interlinked hydrological, ecological, and social systems

AU - Van Loon, Anne F.

AU - Kchouk, Sarra

AU - Matanó, Alessia

AU - Tootoonchi, Faranak

AU - Alvarez-Garreton, Camila

AU - Hassaballah, Khalid E.A.

AU - Wu, Minchao

AU - Wens, Marthe L.K.

AU - Shyrokaya, Anastasiya

AU - Ridolfi, Elena

AU - Biella, Riccardo

AU - Nagavciuc, Viorica

AU - Barendrecht, Marlies H.

AU - Bastos, Ana

AU - Cavalcante, Louise

AU - de Vries, Franciska T.

AU - Garcia, Margaret

AU - Mård, Johanna

AU - Streefkerk, Ileen N.

AU - Teutschbein, Claudia

AU - Tootoonchi, Roshanak

AU - Weesie, Ruben

AU - Aich, Valentin

AU - Boisier, Juan P.

AU - Baldassarre, Giuliano Di

AU - Du, Yiheng

AU - Galleguillos, Mauricio

AU - Garreaud, René

AU - Ionita, Monica

AU - Khatami, Sina

AU - Koehler, Johanna K.L.

AU - Luce, Charles H.

AU - Maskey, Shreedhar

AU - Mendoza, Heidi D.

AU - Mwangi, Moses N.

AU - Pechlivanidis, Ilias G.

AU - Ribeiro Neto, Germano G.

AU - Roy, Tirthankar

AU - Stefanski, Robert

AU - Trambauer, Patricia

AU - Koebele, Elizabeth A.

AU - Vico, Giulia

AU - Werner, Micha

PY - 2024/9/23

Y1 - 2024/9/23

N2 - Droughts are often long-lasting phenomena, without a distinct start or end and with impacts cascading across sectors and systems, creating long-term legacies. Nevertheless, our current perceptions and management of droughts and their impacts are often event-based, which can limit the effective assessment of drought risks and reduction of drought impacts. Here, we advocate for changing this perspective and viewing drought as a hydrological–ecological–social continuum. We take a systems theory perspective and focus on how “memory” causes feedback and interactions between parts of the interconnected systems at different timescales. We first discuss the characteristics of the drought continuum with a focus on the hydrological, ecological, and social systems separately, and then we study the system of systems. Our analysis is based on a review of the literature and a study of five cases: Chile, the Colorado River basin in the USA, northeast Brazil, Kenya, and the Rhine River basin in northwest Europe. We find that the memories of past dry and wet periods, carried by both bio-physical (e.g. groundwater, vegetation) and social systems (e.g. people, governance), influence how future drought risk manifests. We identify four archetypes of drought dynamics: impact and recovery, slow resilience building, gradual collapse, and high resilience–big shock. The interactions between the hydrological, ecological, and social systems result in systems shifting between these types, which plays out differently in the five case studies. We call for more research on drought preconditions and recovery in different systems, on dynamics cascading between systems and triggering system changes, and on dynamic vulnerability and maladaptation. Additionally, we advocate for more continuous monitoring of drought hazards and impacts, modelling tools that better incorporate memories and adaptation responses, and management strategies that increase societal and institutional memory. This will help us to better deal with the complex hydrological–ecological–social drought continuum and identify effective pathways to adaptation and mitigation.

AB - Droughts are often long-lasting phenomena, without a distinct start or end and with impacts cascading across sectors and systems, creating long-term legacies. Nevertheless, our current perceptions and management of droughts and their impacts are often event-based, which can limit the effective assessment of drought risks and reduction of drought impacts. Here, we advocate for changing this perspective and viewing drought as a hydrological–ecological–social continuum. We take a systems theory perspective and focus on how “memory” causes feedback and interactions between parts of the interconnected systems at different timescales. We first discuss the characteristics of the drought continuum with a focus on the hydrological, ecological, and social systems separately, and then we study the system of systems. Our analysis is based on a review of the literature and a study of five cases: Chile, the Colorado River basin in the USA, northeast Brazil, Kenya, and the Rhine River basin in northwest Europe. We find that the memories of past dry and wet periods, carried by both bio-physical (e.g. groundwater, vegetation) and social systems (e.g. people, governance), influence how future drought risk manifests. We identify four archetypes of drought dynamics: impact and recovery, slow resilience building, gradual collapse, and high resilience–big shock. The interactions between the hydrological, ecological, and social systems result in systems shifting between these types, which plays out differently in the five case studies. We call for more research on drought preconditions and recovery in different systems, on dynamics cascading between systems and triggering system changes, and on dynamic vulnerability and maladaptation. Additionally, we advocate for more continuous monitoring of drought hazards and impacts, modelling tools that better incorporate memories and adaptation responses, and management strategies that increase societal and institutional memory. This will help us to better deal with the complex hydrological–ecological–social drought continuum and identify effective pathways to adaptation and mitigation.

UR - http://www.scopus.com/inward/record.url?scp=85205149950&partnerID=8YFLogxK

U2 - 10.5194/nhess-24-3173-2024

DO - 10.5194/nhess-24-3173-2024

M3 - Review article

AN - SCOPUS:85205149950

SN - 1561-8633

VL - 24

SP - 3173

EP - 3205

JO - Natural Hazards and Earth System Sciences

JF - Natural Hazards and Earth System Sciences

IS - 9

ER -

Review article: Drought as a continuum – memory effects in interlinked hydrological, ecological, and social systems

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