about
How sexual selection can drive the evolution of costly sperm ornamentationFemale mediation of competitive fertilization success in Drosophila melanogaster.MALDI-TOF mass spectrometry as a simple tool to determine the phospholipid/glycolipid composition of sperm: pheasant spermatozoa as one selected example.Resolving variation in the reproductive tradeoff between sperm size and number.They produce the sperm, but whose is it?: The 11 Biology of Spermatozoa Meeting September 5-9, 2011-Derbyshire UKInbreeding reveals mode of past selection on male reproductive characters in Drosophila melanogasterSexual selection and the evolution of sperm quality.No evidence for a trade-off between sperm length and male premating weaponry.Ejaculate quality and constraints in relation to sperm competition levels among eutherian mammals.No inbreeding depression in sperm storage ability or offspring viability in Drosophila melanogaster females.An analytical framework for estimating fertilization bias and the fertilization set from multiple sperm-storage organs.Sperm competition selects beyond relative testes size in birds.Ejaculate evolution in external fertilizers: Influenced by sperm competition or sperm limitation?Population density and structure drive differential investment in pre- and postmating sexual traits in frogs.Greater sperm complexity in the Australasian old endemic rodents (Tribe: Hydromyini) is associated with increased levels of inter-male sperm competition.Genetic diversity does not explain variation in extra-pair paternity in multiple populations of a songbird.Female monopolization mediates the relationship between pre- and postcopulatory sexual traits.Postcopulatory sexual selection generates speciation phenotypes in Drosophila.Sperm form and function: what do we know about the role of sexual selection?Evolutionary Trade-Off between Secondary Sexual Traits and Ejaculates.Covariance among premating, post-copulatory and viability fitness components in Drosophila melanogaster and their influence on paternity measurement.Alternative mating tactics in the yellow dung fly: resolving mechanisms of small-male advantage off pasture.Rapid diversification of sperm precedence traits and processes among three sibling Drosophila species.How multivariate ejaculate traits determine competitive fertilization success in Drosophila melanogaster.No evidence for postcopulatory inbreeding avoidance in Drosophila melanogaster.Sperm morphology and sperm velocity in passerine birdsSperm competition leads to functional adaptations in avian testes to maximize sperm quantity and qualitySperm number trumps sperm size in mammalian ejaculate evolutionEvolution: Big Bawls, Small BallsFitness consequences of the combined effects of veterinary and agricultural pesticides on a non-target insectSperm quality and quantity evolve through different selective processes in the PhasianidaeSexual ornaments but not weapons trade off against testes size in primates
P50
Q28275890-5EBD93B5-8C2B-4B51-B508-F6C035C01B7CQ30541012-AFAD6316-703C-4683-9863-D7DE6C1F9848Q33812320-AADAA2B0-AEBE-4A91-987D-09A47DB67186Q34750248-4F1BEFF9-5EA6-42AE-9BCB-702798557BF2Q35733205-FC658526-C24F-4CBC-B1BB-BDD1FBE38644Q37058720-3F5FD001-5A06-4EA3-8A05-641AC903AADFQ38260957-6741AA28-A816-4AF4-AEBF-B3CC0EC2187CQ40581985-BC6B6511-7C47-4474-99A9-68296EA5A397Q42445923-CCFC8F23-7BA0-4C53-B141-25D201C6375AQ44101379-EF75A00E-FB4B-41B0-A17A-511F7B53C6ECQ45328586-78065992-3799-457C-89EF-6423A4EB729AQ46055584-575A46C8-2102-4F1F-A506-16FD12900BD1Q46295411-C2596DD9-EBB7-4B6F-9B58-4F835F2DAD43Q46386825-BB0911E8-9628-450B-AEC0-E22F5DFFE258Q46588907-9D16F590-F8D1-4086-AE83-B8FDCF1CCAF1Q46743168-B7FD7687-4AD9-423E-821D-B44FC8BAEDC1Q46942906-7E186B73-8E4F-4169-B6EC-402A2788E2EFQ46989223-D957D7C3-232F-427F-B80C-6E583D53A85AQ49832818-781C5329-E9D2-4B3B-A248-F81CDF299BA3Q50098857-7E6F718B-1C8A-411A-95B2-F0664EC5C4C0Q50496919-94D48FCC-5CC7-487A-A70C-7AD3BEDFCC0CQ51185524-B9419C63-77AE-459F-A452-7009CB11BBD2Q51221080-4E03AB45-840C-4763-B36C-0053A9337CE6Q51322340-EBF05831-DEAB-42DE-B3F4-D908BF0BCCE9Q51419521-70CB5569-454E-4229-BE02-F704A013ADD6Q83157264-15E63E1D-15AB-498D-A0B2-DE93261EE516Q83392446-3DC225CB-EE05-4D0D-8E0A-91AF6DB93797Q86727180-8295D671-C139-409A-94B8-5682C85B1050Q86735447-6EB6EFF6-5D2A-409D-8997-5CBAC804666FQ89957032-D42AC1A2-C17C-4DD6-8BD5-70A4E2210ED7Q92059466-B0EFF21A-97A6-4473-B002-E459695A802BQ92982998-8341B42C-D0F6-423F-B1D7-D2EC17CB5707
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Stefan Lüpold
@ast
Stefan Lüpold
@en
Stefan Lüpold
@es
Stefan Lüpold
@nl
Stefan Lüpold
@sl
type
label
Stefan Lüpold
@ast
Stefan Lüpold
@en
Stefan Lüpold
@es
Stefan Lüpold
@nl
Stefan Lüpold
@sl
prefLabel
Stefan Lüpold
@ast
Stefan Lüpold
@en
Stefan Lüpold
@es
Stefan Lüpold
@nl
Stefan Lüpold
@sl
P1053
C-2091-2012
P106
P1153
6602985014
P21
P31
P3829
P496
0000-0002-5069-1992