Hypersaline habitats in Chile, from marine solar salt pans to saline lagoons and pools in Andean ... more Hypersaline habitats in Chile, from marine solar salt pans to saline lagoons and pools in Andean salars, were prospected in search ofArtemia populations. These saline ecosystems were characterized through physico-chemical parameters and ionic composition of their brines. Biometrics of cysts and nauplii, as well as morphometrics by using multivariate discriminant analysis for adult specimens evidenced that the Chilean populations of brine shrimp belong toA. franciscana. Cross-breeding results supported the former hypothesis of conspecific Chilean populations, and their differences withA. persimilis, also endemic to the New World, but restricted to Argentinean sites.
Hypersaline habitats in Chile, from marine solar salt pans to saline lagoons and pools in Andean ... more Hypersaline habitats in Chile, from marine solar salt pans to saline lagoons and pools in Andean salars, were prospected in search of Artemia populations. These saline ecosystems were characterized through physico-chemical parameters and ionic composition of their brines. Biometrics of cysts and nauplii, as well as morphometrics by using multivariate discriminant analysis for adult specimens evidenced that the Chilean populations of brine shrimp belong to A. franciscana. Cross-breeding results supported the former hypothesis of conspecific Chilean populations, and their differences with A. persimilis, also endemic to the New World, but restricted to Argentinean sites.
Hypersaline habitats in Chile, from marine solar salt pans to saline lagoons and pools in Andean ... more Hypersaline habitats in Chile, from marine solar salt pans to saline lagoons and pools in Andean salars, were prospected in search ofArtemia populations. These saline ecosystems were characterized through physico-chemical parameters and ionic composition of their brines. Biometrics of cysts and nauplii, as well as morphometrics by using multivariate discriminant analysis for adult specimens evidenced that the Chilean populations of brine shrimp belong toA. franciscana. Cross-breeding results supported the former hypothesis of conspecific Chilean populations, and their differences withA. persimilis, also endemic to the New World, but restricted to Argentinean sites.
Hypersaline habitats in Chile, from marine solar salt pans to saline lagoons and pools in Andean ... more Hypersaline habitats in Chile, from marine solar salt pans to saline lagoons and pools in Andean salars, were prospected in search ofArtemia populations. These saline ecosystems were characterized through physico-chemical parameters and ionic composition of their brines. Biometrics of cysts and nauplii, as well as morphometrics by using multivariate discriminant analysis for adult specimens evidenced that the Chilean populations of brine shrimp belong toA. franciscana. Cross-breeding results supported the former hypothesis of conspecific Chilean populations, and their differences withA. persimilis, also endemic to the New World, but restricted to Argentinean sites.
Hypersaline habitats in Chile, from marine solar salt pans to saline lagoons and pools in Andean ... more Hypersaline habitats in Chile, from marine solar salt pans to saline lagoons and pools in Andean salars, were prospected in search of Artemia populations. These saline ecosystems were characterized through physico-chemical parameters and ionic composition of their brines. Biometrics of cysts and nauplii, as well as morphometrics by using multivariate discriminant analysis for adult specimens evidenced that the Chilean populations of brine shrimp belong to A. franciscana. Cross-breeding results supported the former hypothesis of conspecific Chilean populations, and their differences with A. persimilis, also endemic to the New World, but restricted to Argentinean sites.
Hypersaline habitats in Chile, from marine solar salt pans to saline lagoons and pools in Andean ... more Hypersaline habitats in Chile, from marine solar salt pans to saline lagoons and pools in Andean salars, were prospected in search ofArtemia populations. These saline ecosystems were characterized through physico-chemical parameters and ionic composition of their brines. Biometrics of cysts and nauplii, as well as morphometrics by using multivariate discriminant analysis for adult specimens evidenced that the Chilean populations of brine shrimp belong toA. franciscana. Cross-breeding results supported the former hypothesis of conspecific Chilean populations, and their differences withA. persimilis, also endemic to the New World, but restricted to Argentinean sites.
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