Avoidance of host resistance in the oviposition-site preferences of rose bitterling | |
Rouchet, Romain1; Smith, Carl1,2,3; Liu, Huanzhang4; Methling, Caroline1; Douda, Karel5; Yu, Dan4; Tang, Qionying4; Reichard, Martin1 | |
2017-10-01 | |
Source Publication | EVOLUTIONARY ECOLOGY
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ISSN | 0269-7653 |
Volume | 31Issue:5Pages:769-783 |
Abstract | A contemporary outcome of dynamic host-parasite coevolution can be driven by the adaptation of a parasite to exploit its hosts at the population and species levels (parasite specialisation) or by local host adaptations leading to greater host resistance to sympatric parasite populations (host resistance). We tested the predominance of these two scenarios using cross-infection experiments with two geographically distant populations of the rose bitterling, Rhodeus ocellatus, a fish brood parasite of freshwater mussels, and four populations of their mussel hosts (two Anodonta woodiana and two Unio douglasiae populations) with varying degrees of geographic sympatry and local coexistence. Our data support predictions for host resistance at the species level but no effect of local coexistence between specific populations. Rhodeus ocellatus showed a preference for allopatric host populations, irrespective of host species. Host mussel response, in terms of ejection of R. ocellatus eggs, was stronger in the more widespread and abundant host species (A. woodiana) and this response tended to be higher in sympatric populations. These outcomes provide support for the importance of host resistance in bitterling oviposition-site decisions, demonstrating that host choice by R. ocellatus is adaptive by minimizing egg ejections. These findings imply that R. ocellatus, and potentially other bitterling species, may benefit from exploiting novel hosts, which may not possess appropriate adaptive responses to parasitism. |
Keyword | Brood parasitism Coevolutionary dynamic Egg ejection Host selection Oviposition choice Parasite specialisation |
DOI | 10.1007/s10682-017-9907-2 |
Funding Organization | Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation |
Indexed By | SCI |
Language | 英语 |
Funding Project | Czech Science Foundation[13-05872S] |
WOS Research Area | Environmental Sciences & Ecology ; Evolutionary Biology ; Genetics & Heredity |
WOS Subject | Ecology ; Evolutionary Biology ; Genetics & Heredity |
WOS ID | WOS:000410764000012 |
WOS Keyword | FRESH-WATER MUSSELS ; RHODEUS-SERICEUS ; LOCAL ADAPTATION ; SPERM COMPETITION ; UNIONID MUSSELS ; PROXIMATE CUE ; MATE CHOICE ; TRADE-OFFS ; PARASITE ; OCELLATUS |
Publisher | SPRINGER |
Funding Organization | Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation ; Czech Science Foundation |
Citation statistics | |
Document Type | 期刊论文 |
Identifier | http://ir.ihb.ac.cn/handle/342005/31575 |
Collection | 水生生物多样性与资源保护研究中心_期刊论文 |
Corresponding Author | Reichard, Martin |
Affiliation | 1.Acad Sci Czech Republ, Inst Vertebrate Biol, Brno, Czech Republic 2.Univ St Andrews, Sch Biol, St Andrews, Fife, Scotland 3.Univ St Andrews, Bell Pettigrew Museum Nat Hist, St Andrews, Fife, Scotland 4.Chinese Acad Sci, Inst Hydrobiol, Key Lab Aquat Biodivers & Conservat, Wuhan 430072, Hubei, Peoples R China 5.Czech Univ Life Sci Prague, Fac Agrobiol Food & Nat Resources, Dept Zool & Fisheries, Prague, Czech Republic |
Recommended Citation GB/T 7714 | Rouchet, Romain,Smith, Carl,Liu, Huanzhang,et al. Avoidance of host resistance in the oviposition-site preferences of rose bitterling[J]. EVOLUTIONARY ECOLOGY,2017,31(5):769-783. |
APA | Rouchet, Romain.,Smith, Carl.,Liu, Huanzhang.,Methling, Caroline.,Douda, Karel.,...&Reichard, Martin.(2017).Avoidance of host resistance in the oviposition-site preferences of rose bitterling.EVOLUTIONARY ECOLOGY,31(5),769-783. |
MLA | Rouchet, Romain,et al."Avoidance of host resistance in the oviposition-site preferences of rose bitterling".EVOLUTIONARY ECOLOGY 31.5(2017):769-783. |
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