Land use, genetic diversity and toxicant tolerance in natural populations of Daphnia magna.
about
The interplay between plasticity and evolution in response to human-induced environmental changeRapid evolution of increased vulnerability to an insecticide at the expansion front in a poleward-moving damselflySingle nucleotide polymorphism discovery from expressed sequence tags in the waterflea Daphnia magna.Environmental versus anthropogenic effects on population adaptive divergence in the freshwater snail Lymnaea stagnalis.Gene expression profiling of three different stressors in the water flea Daphnia magna.Living on the edge: populations of two zooplankton species living closer to agricultural fields are more resistant to a common insecticide.Experimental evolution reveals high insecticide tolerance in Daphnia inhabiting farmland pondsEvolutionary consequences of historical metal contamination for natural populations of Chironomus riparius (Diptera: Chironomidae).Clone- and age-dependent toxicity of a glyphosate commercial formulation and its active ingredient in Daphnia magna.Evolutionary ecotoxicology of pesticide resistance: a case study in Daphnia.Evolutionary concepts in ecotoxicology: tracing the genetic background of differential cadmium sensitivities in invertebrate lineages.Living on a volcano's edge: genetic isolation of an extremophile terrestrial metazoan.Riverine fish diversity varies according to geographical isolation and land use modification.Differential tolerance to copper, but no evidence of population-level genetic differences in a widely-dispersing native barnacle.Influence of existing site contamination on sensitivity of Rhinella fernandezae (Anura, Bufonidae) tadpoles to Lorsban®48E formulation of chlorpyrifos.Standardize or Diversify Experimental Conditions in Ecotoxicology? A Case Study on Herbicide Toxicity to Larvae of Two Anuran Amphibians.Wetland defense: naturally occurring pesticide resistance in zooplankton populations protects the stability of aquatic communities.Effect of lead pollution on fitness and its dependence on heterozygosity in Drosophila subobscura.The role of selection in driving landscape genomic structure of the waterflea Daphnia magna.Proximity to agriculture is correlated with pesticide tolerance: evidence for the evolution of amphibian resistance to modern pesticides.Pesticide exposure impacts not only hatching of dormant eggs, but also hatchling survival and performance in the water flea Daphnia magna.Genomic signature of natural and anthropogenic stress in wild populations of the waterflea Daphnia magna: validation in space, time and experimental evolution.Collateral damage: rapid exposure-induced evolution of pesticide resistance leads to increased susceptibility to parasites.Fitness and virulence of a bacterial endoparasite in an environmentally stressed crustacean host.Cross-tolerance in amphibians: wood frog mortality when exposed to three insecticides with a common mode of action.Investigation of differences in sensitivity between 3 strains of Daphnia magna (crustacean Cladocera) exposed to malathion (organophosphorous pesticide).Population-specific toxicity of six insecticides to the trematode Echinoparyphium sp.Evolution of carbaryl resistance in the water flea Daphnia: complex interactions between inbreeding, stress, and selectionCombined exposure to parasite and pesticide causes increased mortality in the water flea DaphniaThe interplay of past and current stress exposure on the water flea Daphnia
P2860
Q28067800-BDB8B43C-B624-4E4D-A7A8-B2188672DFD9Q28274206-2509A4FE-8144-4CE5-8E29-7BA6F75C0BE2Q33930963-337BC4BB-FCA8-4C34-9FEB-D7C897F72339Q34160240-24121122-02AC-482E-BBB2-3E4157C4B071Q34657609-E5DC4F9B-A25F-4C4A-8E4A-4C77D6EEC792Q35252158-DA2CE717-64B2-405F-831F-0B77F49C0F18Q35603788-6A7F09F5-A056-4244-8AFB-F51E76583804Q36326367-FE5EB289-B5B9-4EC2-8FD3-B0E890E0CD93Q36609809-B6AF54F7-3883-40C2-8725-804AE6804966Q37850347-4DCA038A-FAF7-488D-BE9C-562582BE4D52Q38098128-9DF1CDAE-2D42-4C90-97D1-E6674503A7CDQ41849963-23CEC4B3-E688-40E0-8670-8741B6A20B98Q42372664-AB378DBB-5D82-4AB3-ABA2-9ED5F50C52CFQ44849365-CD924D5B-9F50-4056-80C0-C29191332F44Q46331155-D05159B7-867A-476F-96FF-B84CF5A692E6Q46343056-88016D6C-085D-4E70-81F4-B645CF8CC084Q46596231-D37E44F9-1AD5-40EF-BF0B-CA92C524BFCBQ46621105-0AE3D051-53C3-4674-A7C6-E3E3513F3A65Q46947306-FB30B053-0531-490C-9D27-B4D24111599CQ49358504-CB41D423-DA74-425F-9705-53DF142A8F72Q51530764-37776858-2B01-468E-BFD8-9603EC868E92Q51573799-A02F65C9-E772-447B-A295-1A3AC5799D79Q51587298-83B3EDB6-7C0A-4836-9527-3D238A1037B2Q51624806-DBC755A4-234C-4F70-B241-DCD511E8F438Q52749472-8473A8E8-5617-4A5C-9149-1E2ED8923745Q52782950-DC893EB7-8807-49FF-9E83-988DA4804904Q52844512-9CDD4FA4-D72C-4E7A-933E-814DC9D86858Q57191266-329A238E-B571-49A7-B033-F8E98B5BD154Q57191327-627C386C-0DC0-4F3F-84D4-E56CD506EC7DQ57191341-3EBFC1D4-B831-451C-85C1-ED06C9F1B95F
P2860
Land use, genetic diversity and toxicant tolerance in natural populations of Daphnia magna.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Land use, genetic diversity an ...... populations of Daphnia magna.
@en
Land use, genetic diversity an ...... populations of Daphnia magna.
@nl
type
label
Land use, genetic diversity an ...... populations of Daphnia magna.
@en
Land use, genetic diversity an ...... populations of Daphnia magna.
@nl
prefLabel
Land use, genetic diversity an ...... populations of Daphnia magna.
@en
Land use, genetic diversity an ...... populations of Daphnia magna.
@nl
P1433
P1476
Land use, genetic diversity an ...... populations of Daphnia magna.
@en
P2093
Anja Coors
Tom De Bie
P356
10.1016/J.AQUATOX.2009.08.004
P577
2009-08-14T00:00:00Z