A European map of groundwater pH and calcium

Water resources and associated ecosystems are becoming highly endangered due to ongoing global environmental changes. Spatial ecological modelling is a promising toolbox for understanding the past, present and future distribution and diversity patterns in groundwater-dependent ecosystems, such as fe...

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Published inEarth system science data Vol. 13; no. 3; pp. 1089 - 1105
Main Authors Hájek, Michal, Jiménez-Alfaro, Borja, Hájek, Ondřej, Brancaleoni, Lisa, Cantonati, Marco, Carbognani, Michele, Dedić, Anita, Dítě, Daniel, Gerdol, Renato, Hájková, Petra, Horsáková, Veronika, Jansen, Florian, Kamberović, Jasmina, Kapfer, Jutta, Kolari, Tiina Hilkka Maria, Lamentowicz, Mariusz, Lazarević, Predrag, Mašić, Ermin, Moeslund, Jesper Erenskjold, Pérez-Haase, Aaron, Peterka, Tomáš, Petraglia, Alessandro, Pladevall-Izard, Eulàlia, Plesková, Zuzana, Segadelli, Stefano, Semeniuk, Yuliya, Singh, Patrícia, Šímová, Anna, Šmerdová, Eva, Tahvanainen, Teemu, Tomaselli, Marcello, Vystavna, Yuliya, Biţă-Nicolae, Claudia, Horsák, Michal
Format Journal Article
LanguageEnglish
Published Katlenburg-Lindau Copernicus GmbH 17.03.2021
Copernicus Publications
Subjects
Analysis
Aquatic resources
Bedrock
Biodiversity
Calcium
Datasets
Distribution
Ecological models
Ecosystems
Environmental changes
Fens
Grasslands
Groundwater
Groundwater mapping
Hydrogen-ion concentration
Lithology
Mathematical models
pH effects
Reed beds
Reedbeds
Regression analysis
Soil
Soil acidity
Soil chemistry
Soil maps
Soil pH
Statistical methods
Streams
Terrestrial ecosystems
Vegetation
Water chemistry
Water resources
Water springs
Water, Underground
Fennoscandia
Kosovo
Europe
Ukraine
Slovenia
Serbia
Bulgaria
Germany
Croatia
Russia
Online AccessGet full text
ISSN1866-3516
1866-3508
1866-3516
DOI10.5194/essd-13-1089-2021

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Abstract Water resources and associated ecosystems are becoming highly endangered due to ongoing global environmental changes. Spatial ecological modelling is a promising toolbox for understanding the past, present and future distribution and diversity patterns in groundwater-dependent ecosystems, such as fens, springs, streams, reed beds or wet grasslands. Still, the lack of detailed water chemistry maps prevents the use of reasonable models to be applied on continental and global scales. Being major determinants of biological composition and diversity of groundwater-dependent ecosystems, groundwater pH and calcium are of utmost importance. Here we developed an up-to-date European map of groundwater pH and Ca, based on 7577 measurements of near-surface groundwater pH and calcium distributed across Europe. In comparison to the existing European groundwater maps, we included several times more sites, especially in the regions rich in spring and fen habitats, and filled the apparent gaps in eastern and southeastern Europe. We used random forest models and regression kriging to create continuous maps of water pH and calcium at the continental scale, which is freely available also as a raster map (Hájek et al., 2020b; https://doi.org/10.5281/zenodo.4139912). Lithology had a higher importance than climate for both pH and calcium. The previously recognised latitudinal and altitudinal gradients were rediscovered with much refined regional patterns, as associated with bedrock variation. For ecological models of distribution and diversity of many terrestrial ecosystems, our new map based on field groundwater measurements is more suitable than maps of soil pH, which mirror not only bedrock chemistry but also vegetation-dependent soil processes.
AbstractList Water resources and associated ecosystems are becoming highly endangered due to ongoing global environmental changes. Spatial ecological modelling is a promising toolbox for understanding the past, present and future distribution and diversity patterns in groundwater-dependent ecosystems, such as fens, springs, streams, reed beds or wet grasslands. Still, the lack of detailed water chemistry maps prevents the use of reasonable models to be applied on continental and global scales. Being major determinants of biological composition and diversity of groundwater-dependent ecosystems, groundwater pH and calcium are of utmost importance. Here we developed an up-to-date European map of groundwater pH and Ca, based on 7577 measurements of near-surface groundwater pH and calcium distributed across Europe. In comparison to the existing European groundwater maps, we included several times more sites, especially in the regions rich in spring and fen habitats, and filled the apparent gaps in eastern and southeastern Europe. We used random forest models and regression kriging to create continuous maps of water pH and calcium at the continental scale, which is freely available also as a raster map (Hájek et al., 2020b; 10.5281/zenodo.4139912). Lithology had a higher importance than climate for both pH and calcium. The previously recognised latitudinal and altitudinal gradients were rediscovered with much refined regional patterns, as associated with bedrock variation. For ecological models of distribution and diversity of many terrestrial ecosystems, our new map based on field groundwater measurements is more suitable than maps of soil pH, which mirror not only bedrock chemistry but also vegetation-dependent soil processes.
Water resources and associated ecosystems are becoming highly endangered due to ongoing global environmental changes. Spatial ecological modelling is a promising toolbox for understanding the past, present and future distribution and diversity patterns in groundwater-dependent ecosystems, such as fens, springs, streams, reed beds or wet grasslands. Still, the lack of detailed water chemistry maps prevents the use of reasonable models to be applied on continental and global scales. Being major determinants of biological composition and diversity of groundwater-dependent ecosystems, groundwater pH and calcium are of utmost importance. Here we developed an up-to-date European map of groundwater pH and Ca, based on 7577 measurements of near-surface groundwater pH and calcium distributed across Europe. In comparison to the existing European groundwater maps, we included several times more sites, especially in the regions rich in spring and fen habitats, and filled the apparent gaps in eastern and southeastern Europe. We used random forest models and regression kriging to create continuous maps of water pH and calcium at the continental scale, which is freely available also as a raster map (Hájek et al., 2020b; https://doi.org/10.5281/zenodo.4139912 ). Lithology had a higher importance than climate for both pH and calcium. The previously recognised latitudinal and altitudinal gradients were rediscovered with much refined regional patterns, as associated with bedrock variation. For ecological models of distribution and diversity of many terrestrial ecosystems, our new map based on field groundwater measurements is more suitable than maps of soil pH, which mirror not only bedrock chemistry but also vegetation-dependent soil processes.
Water resources and associated ecosystems are becoming highly endangered due to ongoing global environmental changes. Spatial ecological modelling is a promising toolbox for understanding the past, present and future distribution and diversity patterns in groundwater-dependent ecosystems, such as fens, springs, streams, reed beds or wet grasslands. Still, the lack of detailed water chemistry maps prevents the use of reasonable models to be applied on continental and global scales. Being major determinants of biological composition and diversity of groundwater-dependent ecosystems, groundwater pH and calcium are of utmost importance. Here we developed an up-to-date European map of groundwater pH and Ca, based on 7577 measurements of near-surface groundwater pH and calcium distributed across Europe. In comparison to the existing European groundwater maps, we included several times more sites, especially in the regions rich in spring and fen habitats, and filled the apparent gaps in eastern and southeastern Europe. We used random forest models and regression kriging to create continuous maps of water pH and calcium at the continental scale, which is freely available also as a raster map (Hájek et al., 2020b;
Water resources and associated ecosystems are becoming highly endangered due to ongoing global environmental changes. Spatial ecological modelling is a promising toolbox for understanding the past, present and future distribution and diversity patterns in groundwater-dependent ecosystems, such as fens, springs, streams, reed beds or wet grasslands. Still, the lack of detailed water chemistry maps prevents the use of reasonable models to be applied on continental and global scales. Being major determinants of biological composition and diversity of groundwater-dependent ecosystems, groundwater pH and calcium are of utmost importance. Here we developed an up-to-date European map of groundwater pH and Ca, based on 7577 measurements of near-surface groundwater pH and calcium distributed across Europe. In comparison to the existing European groundwater maps, we included several times more sites, especially in the regions rich in spring and fen habitats, and filled the apparent gaps in eastern and southeastern Europe. We used random forest models and regression kriging to create continuous maps of water pH and calcium at the continental scale, which is freely available also as a raster map (Hájek et al., 2020b; https://doi.org/10.5281/zenodo.4139912). Lithology had a higher importance than climate for both pH and calcium. The previously recognised latitudinal and altitudinal gradients were rediscovered with much refined regional patterns, as associated with bedrock variation. For ecological models of distribution and diversity of many terrestrial ecosystems, our new map based on field groundwater measurements is more suitable than maps of soil pH, which mirror not only bedrock chemistry but also vegetation-dependent soil processes.
Audience Academic
Author Dedić, Anita
Hájková, Petra
Lamentowicz, Mariusz
Šímová, Anna
Pérez-Haase, Aaron
Carbognani, Michele
Jansen, Florian
Peterka, Tomáš
Pladevall-Izard, Eulàlia
Jiménez-Alfaro, Borja
Gerdol, Renato
Vystavna, Yuliya
Hájek, Michal
Horsáková, Veronika
Cantonati, Marco
Segadelli, Stefano
Mašić, Ermin
Semeniuk, Yuliya
Horsák, Michal
Petraglia, Alessandro
Tomaselli, Marcello
Dítě, Daniel
Plesková, Zuzana
Hájek, Ondřej
Kolari, Tiina Hilkka Maria
Kapfer, Jutta
Šmerdová, Eva
Biţă-Nicolae, Claudia
Brancaleoni, Lisa
Lazarević, Predrag
Kamberović, Jasmina
Moeslund, Jesper Erenskjold
Singh, Patrícia
Tahvanainen, Teemu
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Snippet Water resources and associated ecosystems are becoming highly endangered due to ongoing global environmental changes. Spatial ecological modelling is a...
Water resources and associated ecosystems are becoming highly endangered due to ongoing global environmental changes. Spatial ecological modelling is a...
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SubjectTerms Analysis
Aquatic resources
Bedrock
Biodiversity
Calcium
Datasets
Distribution
Ecological models
Ecosystems
Environmental changes
Fens
Grasslands
Groundwater
Groundwater mapping
Hydrogen-ion concentration
Lithology
Mathematical models
pH effects
Reed beds
Reedbeds
Regression analysis
Soil
Soil acidity
Soil chemistry
Soil maps
Soil pH
Statistical methods
Streams
Terrestrial ecosystems
Vegetation
Water chemistry
Water resources
Water springs
Water, Underground
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Title A European map of groundwater pH and calcium
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