TY - CHAP
T1 - The Ecological Integrity of Spring Ecosystems
T2 - A Global Review
AU - Stevens, Lawrence E.
AU - Aly, Anwar A.
AU - Arpin, Sarah M.
AU - Apostolova, Iva
AU - Ashley, Gail M.
AU - Barba, Paulo Quadri
AU - Barquín, Jose
AU - Beauger, Aude
AU - Benaabidate, Lahcen
AU - Bhat, Sami Ullah
AU - Bouchaou, Lhoussaine
AU - Cantonati, Marco
AU - Carroll, Teresa M.
AU - Death, Russell
AU - Dwire, Kathleen A.
AU - Felippe, Miguel Fernandes
AU - Fensham, Roderick J.
AU - Fryar, Alan E.
AU - Garsaball, Roger Pascual i.
AU - Gjoni, Vojsava
AU - Glazier, Douglas S.
AU - Goldscheider, Nico
AU - Gurrieri, Joseph T.
AU - Guðmundsdóttir, Ragnhildur
AU - Guzman, Atzalan Rodriguez
AU - Hájek, Michal
AU - Hassel, Kristian
AU - Heartsill-Scalley, Tamara
AU - Herce, Jaume Solé i.
AU - Hinterlang, Dirk
AU - Holway, Joseph H.
AU - Ilmonen, Jari
AU - Jenness, Jeffrey
AU - Kapfer, Jutta
AU - Karaouzas, Ioannis
AU - Knight, Robert L.
AU - Kreiling, Agnes Katharina
AU - Lameli, Christian Herrera
AU - Ledbetter, Jeri D.
AU - Levine, Nataly
AU - Lyons, Melinda D.
AU - Mace, Robert E.
AU - Mentzafou, Angeliki
AU - Marle, Pierre
AU - Moosdorf, Nils
AU - Norton, Monica K.
AU - Pentecost, Allan
AU - Pérez, Guillermo García
AU - Perla, Bianca
AU - Saber, Abdullah A.
AU - Sada, Donald
AU - Segadelli, Stefano
AU - Skaalsveen, Kamilla
AU - Springer, Abraham E.
AU - Swanson, Susan K.
AU - Schwartz, Benjamin F.
AU - Sprouse, Peter
AU - Tekere, Memory
AU - Tobin, Benjamin W.
AU - Tshibalo, Ernest Azwindini
AU - Voldoire, Olivier
N1 - Publisher Copyright:
© 2022 Elsevier Inc. All rights reserved
PY - 2022/1/1
Y1 - 2022/1/1
N2 - Springs are ecosystems influenced by the exposure of groundwater at the Earth’s surface. Springs are abundant and have played important, highly interactive ecological, cultural, and socio-economic roles in arid, mesic, and subaqueous environments throughout human evolution and history. However, springs also are widely regarded as being highly threatened by human impacts. Cantonati et al. (2020a) recommended increased global awareness of springs, including basic mapping, inventory and assessment of the distribution and ecological integrity of springs. We conducted a preliminary global analysis on the ecological integrity of springs by reviewing information on the distribution, ecohydrogeology, associated species, kinds and intensity of human uses, and level of ecological impairment of spring ecosystems. We reviewed information on an estimated 250,000 spring ecosystems among 78 countries across much of the world. Available literature on spring ecological integrity is sparse, widely scattered, and spatially erratic, with major gaps in knowledge. We report large differences in the quality and extent of information among countries and continents, with only moderate data availability even among developed countries, and limited information across most of the developing world. Among countries with available data, ecological impairment of springs is everywhere rampant, sometimes exceeding 90% in developed regions. Impairment among Holarctic nations is generally negatively related to distance from human development, elevation, and latitude, but such patterns are less evident in Africa, Australia, and South America. Declining trends in ecosystem condition, compounding threat factors, and spring-dependent population declines, extirpation, and extinctions of plants, invertebrates, fish, and herpetofauna are widely reported. Overall, available information indicates a global crisis in spring ecosystem integrity, with levels of ecosystem impairment ranging from Vulnerable to fully Collapsed. The threats to aquifers and the ecological integrity of springs vary spatially. Many springs are impaired by local impacts due to flow diversion, geomorphic alteration, land use practices, recreation impacts, and the introduction of non-native species. These threats can be reduced through education, rehabilitation of geomorphology and habitat quality, and species reintroductions if the supporting aquifer remains relatively intact. However, springs also are widely threatened by regional to global factors, including groundwater extraction and pollution, as well as climate change. Such coarse-scale, pre-emergence impacts negatively affect the sustainability of spring ecosystems and the aquifers that support them. Improving understanding and stewardship of springs will require much additional systematic inventory and assessment, improved information management, and reconsideration of basic conservation concepts (e.g., habitat connectivity), as well as cultural and socio-economic valuation. Substantial societal recognition, discussion, and policy reform are needed within and among nations to better protect and sustainably rehabilitate springs, their supporting aquifers, and the spring-dependent human and biotic populations that depend upon them.
AB - Springs are ecosystems influenced by the exposure of groundwater at the Earth’s surface. Springs are abundant and have played important, highly interactive ecological, cultural, and socio-economic roles in arid, mesic, and subaqueous environments throughout human evolution and history. However, springs also are widely regarded as being highly threatened by human impacts. Cantonati et al. (2020a) recommended increased global awareness of springs, including basic mapping, inventory and assessment of the distribution and ecological integrity of springs. We conducted a preliminary global analysis on the ecological integrity of springs by reviewing information on the distribution, ecohydrogeology, associated species, kinds and intensity of human uses, and level of ecological impairment of spring ecosystems. We reviewed information on an estimated 250,000 spring ecosystems among 78 countries across much of the world. Available literature on spring ecological integrity is sparse, widely scattered, and spatially erratic, with major gaps in knowledge. We report large differences in the quality and extent of information among countries and continents, with only moderate data availability even among developed countries, and limited information across most of the developing world. Among countries with available data, ecological impairment of springs is everywhere rampant, sometimes exceeding 90% in developed regions. Impairment among Holarctic nations is generally negatively related to distance from human development, elevation, and latitude, but such patterns are less evident in Africa, Australia, and South America. Declining trends in ecosystem condition, compounding threat factors, and spring-dependent population declines, extirpation, and extinctions of plants, invertebrates, fish, and herpetofauna are widely reported. Overall, available information indicates a global crisis in spring ecosystem integrity, with levels of ecosystem impairment ranging from Vulnerable to fully Collapsed. The threats to aquifers and the ecological integrity of springs vary spatially. Many springs are impaired by local impacts due to flow diversion, geomorphic alteration, land use practices, recreation impacts, and the introduction of non-native species. These threats can be reduced through education, rehabilitation of geomorphology and habitat quality, and species reintroductions if the supporting aquifer remains relatively intact. However, springs also are widely threatened by regional to global factors, including groundwater extraction and pollution, as well as climate change. Such coarse-scale, pre-emergence impacts negatively affect the sustainability of spring ecosystems and the aquifers that support them. Improving understanding and stewardship of springs will require much additional systematic inventory and assessment, improved information management, and reconsideration of basic conservation concepts (e.g., habitat connectivity), as well as cultural and socio-economic valuation. Substantial societal recognition, discussion, and policy reform are needed within and among nations to better protect and sustainably rehabilitate springs, their supporting aquifers, and the spring-dependent human and biotic populations that depend upon them.
KW - Assessment
KW - Ecosystem
KW - Endangered
KW - Global imperilment
KW - Groundwater
KW - Ramsar convention
KW - Red list of ecosystems
KW - Springs
KW - Springs-dependent taxa
UR - http://www.scopus.com/inward/record.url?scp=85137588146&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85137588146&partnerID=8YFLogxK
U2 - 10.1016/B978-0-12-821139-7.00111-2
DO - 10.1016/B978-0-12-821139-7.00111-2
M3 - Chapter
AN - SCOPUS:85137588146
VL - 1-3
SP - 436
EP - 451
BT - Imperiled
PB - Elsevier
ER -