TY - JOUR
T1 - Sand dams for sustainable water management
T2 - Challenges and future opportunities
AU - Castelli, Giulio
AU - Piemontese, Luigi
AU - Quinn, Ruth
AU - Aerts, Jeroen
AU - Elsner, Paul
AU - Ertsen, Maurits
AU - Hussey, Stephen
AU - Filho, Walter Leal
AU - Limones, Natalia
AU - Mpofu, Bongani
AU - Neufeld, Doug Graber
AU - Ngugi, Keziah
AU - Ngwenya, Nobubelo
AU - Parker, Alison
AU - Ryan, Cate
AU - de Trincheria, Josep
AU - Villani, Lorenzo
AU - Eisma, Jessica
AU - Bresci, Elena
N1 - Publisher Copyright:
© 2022 Elsevier B.V.
PY - 2022/9/10
Y1 - 2022/9/10
N2 - Sand dams are impermeable water harvesting structures built to collect and store water within the volume of sediments transported by ephemeral rivers. The artificial sandy aquifer created by the sand dam reduces evaporation losses relative to surface water storage in traditional dams. Recent years have seen a renaissance of studies on sand dams as an effective water scarcity adaptation strategy for drylands. However, many aspects of their functioning and effectiveness are still unclear. Literature reviews have pointed to a range of research gaps that need further scientific attention, such as river corridors and network dynamics, watershed-scale impacts, and interaction with social dynamics. However, the scattered and partially incomplete information across the different reviews would benefit from an integrated framework for directing future research efforts. This paper is a collaborative effort of different research groups active on sand dams and stems from the need to channel future research efforts on this topic in a thorough and coherent way. We synthesize the pivotal research gaps of a) unclear definition of “functioning” sand dams, b) lack of methodologies for watershed-scale analysis, c) neglect of social aspects in sand dam research, and d) underreported impacts of sand dams. We then propose framing future research to better target the synthesized gaps, including using the social-ecological systems framework to better capture the interconnected social and biophysical research gaps on sand dams, fully utilizing the potential of remote sensing in large-scale studies and collecting sand dam cases across the world to create an extensive database to advance evidence-based research on sand dams.
AB - Sand dams are impermeable water harvesting structures built to collect and store water within the volume of sediments transported by ephemeral rivers. The artificial sandy aquifer created by the sand dam reduces evaporation losses relative to surface water storage in traditional dams. Recent years have seen a renaissance of studies on sand dams as an effective water scarcity adaptation strategy for drylands. However, many aspects of their functioning and effectiveness are still unclear. Literature reviews have pointed to a range of research gaps that need further scientific attention, such as river corridors and network dynamics, watershed-scale impacts, and interaction with social dynamics. However, the scattered and partially incomplete information across the different reviews would benefit from an integrated framework for directing future research efforts. This paper is a collaborative effort of different research groups active on sand dams and stems from the need to channel future research efforts on this topic in a thorough and coherent way. We synthesize the pivotal research gaps of a) unclear definition of “functioning” sand dams, b) lack of methodologies for watershed-scale analysis, c) neglect of social aspects in sand dam research, and d) underreported impacts of sand dams. We then propose framing future research to better target the synthesized gaps, including using the social-ecological systems framework to better capture the interconnected social and biophysical research gaps on sand dams, fully utilizing the potential of remote sensing in large-scale studies and collecting sand dam cases across the world to create an extensive database to advance evidence-based research on sand dams.
KW - Arid and semi-arid lands (ASAL)
KW - Drought
KW - Sandy rivers
KW - Water harvesting
UR - http://www.scopus.com/inward/record.url?scp=85130959459&partnerID=8YFLogxK
U2 - 10.1016/j.scitotenv.2022.156126
DO - 10.1016/j.scitotenv.2022.156126
M3 - Comment/debate
C2 - 35605850
AN - SCOPUS:85130959459
SN - 0048-9697
VL - 838
JO - Science of the Total Environment
JF - Science of the Total Environment
M1 - 156126
ER -