Limnephilid taxa revised by speciation traits: Rhadicoleptus, Isogamus, Melampophylax genera, Chaetopteryx rugulosa, Psilopteryx psorosa species groups, Drusus bolivari, Annitella kosciuszkii species complexes (Trichoptera: Limnephilidae)
Abstract. Speciation traits of paramere, paraproct and aedeagus were applied to find initial split criteria with fine structure analysis in order to prepare diverged trait matrices for delimiting phylogenetic incipient species of unsettled limnephilid taxa in the early stages of reproductive isolation. A brief history is presented how this phenotypic taxonomic tool of the speciation traits was discovered and applied in caddisfly taxonomy. The theoretical basis was elaborated for the phenotypic speciation trait by reviewing several relevant topics in the sciences of taxonomy, molecular genetics and phylogenetics. Perspectives of integrative taxonomy is discussed in context of phenotype versus genotype, immensely complex phenotype versus phenomic challenge, taxonomic impediment versus genetic expedient, taxonomic adaptation of genetic vocabulary versus genetic sophistication and virtualization, New Systematics of Huxley and Mayr versus New Taxonomy of Wheeler. Debates on magic trait, speciation phenotype, speciation trait and super traits are discussed concluding that evolution works with phenotype and why the cryptic species concept is irrelevant. Briefly summarized how speciation traits evolve in sexual selection, through accelerated reproductive isolation with genital evolution through sex-limited speciation traits, including minor sex chromosomes. Why neutral molecular markers are blind compared to the adaptive speciation traits sensitized by fine structure analysis and backed by the potential of high-tech and high-throughput phenotyping and cyber-infrastructure broadly accessible and fed by computable phenotype descriptions. What sort of genetics could really help taxonomy to describe biodiversity of the over 100 million unknown taxa? Collecting new and re-examining old type materials deposited in various collections, the following taxonomic actions were elaborated by speciation traits. Drusus bolivari new species complex has been erected with redescription of Drusus bolivari (McLachlan, 1876), with species status resurrection of D. estrellensis (McLachlan, 1884) stat. restit., with description of five new species: D. carmenae Oláh, sp. nov
Revision of Drusinae subfamily (Trichoptera, Limnephilidae): divergence by paraproct and paramere: speciation in isolation by integration
Abstract.In the last few years we have described over 70 new incipient sibling limnephild species applying the discovered Trichoptera speciation traits of the paraproct and paramere for species recognition and delimitation. In this revision on Drusinae subfamily, comprising 177 species, we have applied these subtle, but rapid and stable speciation traits and described 49 new sibling species from the "well studied" European mountain ranges. Discussing the theoretical background we have elaborated and adapted a new character state ranking system of phenomics to revise the long-neglected taxonomy of the Drusinae subfamily and synonymised the Cryptothrix, Monocentra, Metanoea, Leptodrusus, Anomalopterygella, Hadimina genera with the Drusus genus. These old genera of artificial constructs were established exclusively by divergences of secondary sexual traits known already to have only species level ranking value. According to our new character ranking system in the Drusinae subfamily, beside the Drusus genus, only the Ecclisopteryx genus has been retained having robust generic level divegences of paraproct loss and ancestral duplication of spine organising centre on the paramere pattern. Speciation trait function of the peg-packed surface on the paraproct head in Drusus genus moved to the gonopod apices and integrated into variously shaped stimulatory organ in the Ecclisopteryx genus. In the Drusus genus the ancestral divergence of the single spine organising centre has integrated 11 species groups with remarkably stable paramere spine pattern. Based upon ancestral divergences in the paraproct architecture we have differenciated 28 species complexes inside the 11 species groups. The delineation of the 163 mostly incipient siblings species, inside the 28 species complexes with 44 new Drusus species, was based primarily on the divergences of speciation trait, that is in the stimulatory head shape of the apical arms on the dorsal branches of the paraproct. In the Ecclisopteryx genus with 14 species we have established two independent lineages both with a single species, as well as two species complexes with five new species applying the speciation trait of the genus, that is the shape divergence of the stimulatory organ on the dorsoapical surface of the gonopods.Based on the Darwinian natural selection, we do not understand how the discovered 70+49 new European incipient phylogenetic species of limnephilid caddisflies have been evolved in the isolated sky island habitats of high mountain ranges. This isolation induced speciation represents a challenge to the mechanistic reductionist concept of the natural selection. Our first trial to extract information from various disciplines to answer this question is presented in a brief theoretical discourse: (1) rethinking the status of natural selection towards postdarwinism; (2) teleology or teleonomy; (3) limits and potentials in understanding reality; (4) organisation of universe by integration; (5) what are and how the organising forces are powered to work in the emerging en...
Unified phylogenetic species concept: taking subspecies and race out of science: postmodern theory applied to the Potamophylax cingulatus group (Trichoptera, Limnephilidae)
The subspecies of the biological species concept with incomplete reproductive isolation versus the incipient sibling species of the phylogenetic species concept with permeable reproductive barrier are still applied side by side in the everyday practice of taxonomy. Both terms refer to the same organisms diverged mostly in allopatry with various stages of reproductive isolation. Question remained: how human ranks these entities organised by nature? The reliable ranking of living hierarchies is retarded and even obscured by the suppressed state of taxonomy. Disappointing scenario: the science of biodiversity is stuck in century old macromorphologies without innovation of fine phenomics and without exploring its hightech and high-throughput potential. The empirical science of taxonomy is "modernised" by the neutral DNA marker industry diverting the epistemological focus from empirical to virtual. Virtuality of noumenon is used to camouflage the phenomenon of the adverse environmental processes, the wasteful byproducts of the profit oriented liberalized economy. The sensual reality of species and the accelerated species extinction is effectively masked by the virtual sciences of the abstract: numbers, data, statistics, algorithms, equations, models and ideas. To understand the birth of a young incipient species we have briefly reviewed the postmodern development of the unified phylogenetic species concept. (1) The reality of species and higher phylogenetic taxa. (2) The biological and phylogenetic species. (3) How to delineate phylogenetic species? (4) The infinite versus finite division of phylogenetic species. (5) The construct of the unified species concept. (6) Taking subspecies and race out of science. Without recognition of incipient siblings of the phylogenetic species the biodiversity remains underestimated and the pharisaic anti-science ranking of humans remains with us. The discovery of speciation trait that is the sexual adaptive structures in reproductive barrier building, which are detectable by fine phenomics, gives perspective to find the finite division, the dynamic initial split in the continuous process of diversification. The speciation traits produced by integrative organisation, as opposed to competitive selection, help to unify the operational criteria of the biological species concept that is the speciation by reproductive isolation with the general concept of phylogenetic species that is the causal process of the separately evolving metapopulation lineages. The subspecies and racial ranking is untenable anymore, we suggest taking subspecies and race out of science: the finite division of the initial split detected by speciation traits is the birth of the phylogenetic incipient sibling species. There is no "subspecies"and "races", as there is no "subindividual" in the biological organisation. In the present caddisfly taxonomy the subspecies remained as a valid status in the Potamophylax Oláh et al.: Unified phylogenetic species concept applied to the Potamophylax cingulatus species group 34 cin...
Revision of European Wormaldia species (Trichoptera, Philopotamidae) : Chimeric taxa of integrative organisation
We have recognised significant incongruences among the most commonly used taxonomic characters in the European species of Wormaldia genus of the Philopotamidae caddisfly family. During taxonomical analysis and ranking procedures we have recorded incongruent, discorcordant characters also in the taxa in Rhyacophilidae, Hydropsychidae and Limnephilidae caddisfly families. Based on theoretical background we concluded that taxa of examined caddisflies and probably all living creatures are chimeric entities composed of components of different origin. Genomes and phenomes are tree-like on the surface but more reticulated in the deep. We understand chimerism with universal consequences, expanding well beyond the evolutionary tree-thinking of reductionism and determinism. Taxa are chimeric or at least chimerical in a stochastic universe under the permanent fluxes of the external and internal impacts created by intercourses between entropy and energy gradients. We have surveyed how to create and correct synonymies in the splitter/lumper perspectives along the principles of compositional and specification hierarchies understood as quantitative variability of non-adaptive neutral and qualitative stability of adaptive, non-neutral traits. We outlined how the apophantic (declaratory) hybris creates synonymies and underestimates biodiversity. After redrawing the diverging genitalic structures, particularly the speciation traits we have reinstated species status of eight taxa: W.
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