Publications
Found 85 publication(s)
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Fiedler, K. & Brehm, G. (2021): Aposematic Coloration of Moths Decreases Strongly along an Elevational Gradient in the Andes. Insects 12(10), -.
Wallis, C.; Brehm, G.; Donoso, D.A.; Fiedler, K.; Homeier, J.; Paulsch, D.; Suessenbach, D.; Tiede, Y.; Brandl, R.; Farwig, N. & Bendix, J. (2017): Remote sensing improves prediction of tropical montane species diversity but performance differs among taxa. Ecological Indicators 1(1), 1-10.
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DOI: 10.1016/j.ecolind.2017.01.022
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Abstract:
Abstract:
Texture information from passive remote sensing images provides surrogates for habitat structure, which is relevant for modeling biodiversity across space and time and for developing effective ecological indicators. However, the applicability of this information might differ among taxa and diversity measures. We compared the ability of indicators developed from texture analysis of remotely sensed images to predict species richness and species turnover of six taxa (trees, pyraloid moths, geometrid moths, arctiinae moths, ants, and birds) in a megadiverse Andean mountain rainforest ecosystem. Partial least-squares regression models were fitted using 12 predictors that characterize the habitat and included three topographical metrics derived from a high-resolution digital elevation model and nine texture metrics derived from very high-resolution multi-spectral orthophotos. We calculated image textures derived from mean, correlation, and entropy statistics within a relatively broad moving window (102 m × 102 m) of the near infra-red band and two vegetation indices. The model performances of species richness were taxon dependent, with the lowest predictive power for arctiinae moths (4%) and the highest for ants (78%). Topographical metrics sufficiently modeled species richness of pyraloid moths and ants, while models for species richness of trees, geometrid moths, and birds benefited from texture metrics. When more complexity was added to the model such as additional texture statistics calculated from a smaller moving window (18 m × 18 m), the predictive power for trees and birds increased significantly from 12% to 22% and 13% to 27%, respectively. Gradients of species turnover, assessed by non-metric two-dimensional scaling (NMDS) of Bray-Curtis dissimilarities, allowed the construction of models with far higher predictability than species richness across all taxonomic groups, with predictability for the first response variable of species turnover ranging from 64% (birds) to 98% (trees) of the explained change in species composition, and predictability for the second response variable of species turnover ranging from 33% (trees) to 74% (pyraloid moths). The two NMDS axes effectively separated compositional change along the elevational gradient, explained by a combination of elevation and texture metrics, from more subtle, local changes in habitat structure surrogated by varying combinations of texture metrics. The application of indicators arising from texture analysis of remote sensing images differed among taxa and diversity measures. However, these habitat indicators improved predictions of species diversity measures of most taxa, and therefore, we highly recommend their use in biodiversity research.
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Keywords: |
moths |
species richness |
species turnover |
mountain rainforest |
tropical trees |
Birds |
ants |
orthophotos |
Adams, M. & Fiedler, K. (2016): Low Herbivory among Targeted Reforestation Sites in the Andean Highlands of Southern Ecuador.. PLoS ONE 11(3), e0151277.
Adams, M. & Fiedler, K. (2015): The value of targeted reforestations for local insect diversity: a case study from the Ecuadorian Andes.. Biodiversity and Conservation 24, 2709-2734.
Werner, F.A.; Jantz, N.; Krashevska, V.; Peters, T.; Behling, H.; Maraun, M.; Scheu, S. & Brehm, G. (2014): Climate Change Effects on Biodiversity and Ecosystem Functioning. In: Bendix, J., Beck, E., Bräuning, A., Makeschin, F., Mosandl, R., Scheu, S., Wilcke, W. (eds.): Ecosystem Services, Biodiversity and Environmental Change in a Tropical Mountain Ecosystem of South ( ), Springer.
Brehm, G.; Strutzenberger, P. & Fiedler, K. (2013): Phylogenetic diversity of geometrid moths decreases with elevation in the tropical Andes. Ecography 36(11), 1247-1253.
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DOI: 10.1111/j.1600-0587.2013.00030.x
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Abstract:
Abstract:
Species diversity of geometrid moths (Lepidoptera, Geometridae) has previously been shown to be extremely and constantly high along a continuously forested elevational gradient in the Andes of southern Ecuador. We analysed samples taken from 32 sites between 1999 and 2011 in northern Podocarpus National Park and adjacent areas from 1020 to 2916 m a.s.l. We conjecture that high elevation habitats were historically mostly colonised by species from lower elevations, and that environmental filtering (e.g. through host plant specificity or temperature tolerance) constrained colonisation from lower elevations, which would yield a pattern of elevationally decreasing phylogenetic diversity. We analysed elevational phylogenetic patterns by means of: 1) the nearest-taxon index (NTI), 2) DNA barcode-based terminal branch lengths (TBLs) from maximum-likelihood phylogeny, 3) the subfamily composition of the local assemblages, and 4), the rarefied number of morphologically defined genera per site.
We counted a total of 1445 species. NTI values significantly increased with elevation, both in a conventional and a rarefaction approach. TBLs decreased significantly with elevation. Subfamily composition profoundly changed with elevation, particularly expressed as an increased proportion of the subfamily Larentiinae and decreased fractions of Sterrhinae and Geometrinae. The number of genera in equally rarefied species resamples significantly decreased with elevation. We conclude that environmental filtering indeed contributed to an altitudinal decrease in moth phylodiversity, but these constraints prevented only relatively few clades from colonising high elevation habitats.
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Keywords: |
moths |
Andes |
Brehm, G.; Strutzenberger, P. & Fiedler, K. (2013): Phylogenetic diversity of geometrid moths decreases with elevation in the tropical Andes. Ecography 36, 001-007.
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Abstract:
Abstract:
Species diversity of geometrid moths (Lepidoptera, Geometridae) has previously been shown to be extremely and constantly high along a continuously forested elevational gradient in the Andes of southern Ecuador. We analysed samples taken from 32 sites between 1999 and 2011 in northern Podocarpus National Park and adjacent areas from 1020 to 2916 m a.s.l. We conjecture that high elevation habitats were historically mostly colonised by species from lower elevations, and that environmental filtering (e.g. through host plant specificity or temperature tolerance) constrained colonisation from lower elevations, which would yield a pattern of elevationally decreasing phylogenetic diversity. We analysed elevational phylogenetic patterns by means of: 1) the nearest-taxon index (NTI), 2) DNA barcode-based terminal branch lengths (TBLs) from maximum-likelihood phylogeny, 3) the subfamily composition of the local assemblages, and 4), the rarefied number of morphologically defined genera per site.
We counted a total of 1445 species. NTI values significantly increased with elevation, both in a conventional and a rarefaction approach. TBLs decreased significantly with elevation. Subfamily composition profoundly changed with elevation, particularly expressed as an increased proportion of the subfamily Larentiinae and decreased fractions of Sterrhinae and Geometrinae. The number of genera in equally rarefied species resamples significantly decreased with elevation. We conclude that environmental filtering indeed contributed to an altitudinal decrease in moth phylodiversity, but these constraints prevented only relatively few clades from colonising high elevation habitats.
Brehm, G.; Bodner, F.; Strutzenberger, P.; Hünefeld, F. & Fiedler, K. (2011): Neotropical Eois (Lepidoptera: Geometridae): Checklist, Biogeography, Diversity, and Description Patterns. Annals of the Entomological Society of America 104, 1091-1107.
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Abstract:
Abstract:
The moth genus Eois Hu¨ bner (Lepidoptera: Geometridae: Larentiinae) comprises 254 validly described species, 211 of them (83%) occurring in the Neotropical region, 12% in the Asian-Australian region, and 5% in Africa. A checklist of Neotropical Eois is provided and some taxonomic changes are made. Aplogompha noctilaria (Schaus) is excluded from the genus, and Eois bermellada (Dognin) and Eois fragilis (Warren) are transferred to the genus. Further changes include Eois cellulata (Prout) stat. rev., Eois ambarilla (Dognin) stat. rev., and Eois telegraphica Prout stat. rev. By far, the majority of Eois species (82%) were described between 1891 and 1920; approximately half of all species by just two authors. Within the Neotropical region, the majority of species (55%) were described from the tropical Andes (Colombia, Ecuador, Peru, and Bolivia), followed by Central America and the Caribbean (28%), and the rest of South America (17%). Large regions such as the Amazon basin, eastern South America, but also northern Peru are heavily underrepresented. Regional diversity studies provide evidence that the wet tropical Andes are the diversity hotspot of Eois. From a forested elevational gradient (1,020Ð2,670 m above sea level) in southeastern Ecuador, 154 morphospecies are currently known, with only 12% of them described. Regional species richness in Central America is lower (Costa Rica, 66 observed morphospecies along a gradient from 40 to 2,730 m; 29% described). Total richness of the genus is estimated to be 1,000 species in the Neotropical region. If the low proportions of described species only partly recur in other groups of Neotropical geometrid moths, their number may exceed 19,000 species. A taxonomic revision of Eois will be a prerequisite for comparison of ecological data from different regions.
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Keywords: |
diversity |
Andes |
Larentiinae |
species richness estimate |
Bodner, F.; Strutzenberger, P.; Brehm, G. & Fiedler, K. (2012): Species Richness and Host Specificity among Caterpillar Ensembles on Shrubs in the Andes of Southern Ecuador. Neotropical Entomology n/a, n/a.
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DOI: 10.1007/s13744-012-0066-4
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Abstract:
Abstract:
Caterpillar ensembles were sampled on 16 species of shrubs from the family Asteraceae and the genus Piper (Piperaceae) in open and forest habitats in the Andean montane forest zone of southern Ecuador between August 2007 and May 2009. Trophic affiliations of caterpillars to the host plants were confirmed in feeding trials. Overall, species richness of herbivorous caterpillars was high (191 species across all plants), but varied strongly between ensembles associated with different plant species (2–96 lepidopteran species per shrub species). Ensembles on Piper species were characterized by low effective species numbers and high dominance of one or two species of the Geometridae genus Eois Hübner. Low species number and high dominance were also found on latex-bearing Erato polymnioides, whereas ensembles on two other Asteraceae species were far more diverse and less strongly shaped by a few dominant species. The observed diversity patterns fit well to the concept that anti-herbivore defenses of plants are the major factors regulating associated insect ensembles. Local abundance and geographic range of host plants appear to have less influence. Lepidopteran species feeding on Asteraceae were found to be more generalistic than those feeding on Piper species. We conclude that caterpillar ensembles on most, but not all, studied plant species are defined by a small number of dominant species, which usually are narrow host specialists. This pattern was more distinct on Piper shrubs in forest understory, whereas Asteraceae in disturbed habitats had more open caterpillar ensembles.
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Keywords: |
Lepidoptera |
tropical montane forest |
Asteraceae |
insect herbivores |
Piperaceae |
Bodner, F. (2011): Caterpillar communities on shrubs in the montane forest zone of southern Ecuador University of Vienna, phd thesis
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Abstract:
Caterpillar communities were studied on 16 shrub species from the family Asteraceae and the genus Piper (Piperaceae) in the Andean montane rainforest zone of southern Ecuador. The applied sampling methodology was evaluated and found well suited for sampling of caterpillars, especially with focus on resampling. During standardized sampling, a total of 18890 specimens were collected in 11 field surveys between August 2007 and June 2009. Overall, samples were dominated by gregarious early instars and egg clutches of Altinote dicaeus albofasciata (Nymphalidae) on Erato polymnioides (Asteraceae). Those and all other such groups and egg clutches were downweighted for analyses to their cubic root to balance against their overrepresentation in the data set. Trophic associations of caterpillars were confirmed by feeding trials. A substantial fraction of more than 22% of the encountered caterpillars (and up to 80% on individual shrub species) was found not to be trophically linked to the living biomass of the shrubs themselves (“non-herbivores”), but rather feed on dead leaves and epiphylls. Abundance of nonherbivores differed strongly between the two studied plant families, but was very similar on different shrub species within these families. Abundance of herbivorous caterpillars, to the contrary, differed hardly between plant families, but varied strongly between individual plant species. Herbivores were almost entirely comprised of ectophagous folivores, while florivores (2.3%) and semi-endophagous folivores (leaf rollers and tiers; 6.0%) were unexpectedly rare. Absolute species richness of herbivorous caterpillars was high, with a total of 191 Lepidoptera species on the studied 16 shrub species, but varied up to 40fold between individual plant species. Rarefied species numbers were more similar among plant species, but still showed a 15fold difference between the most species rich and most species poor community. Communities on Piper species were characterized by low effective species numbers (measured as exponential Shannon entropy) and high dominance of one or two species of the Geometridae genus Eois. E. polymnioides featured a similar structure dominated by A. dicaeus albofasciata. Communities on the other two Asteraceae (Ageratina dendroides and Baccharis latifolia), to the contrary, were found to have high effective species numbers and low dominance. In conclusion, while Piper species and E. polymnioides feature caterpillar communities defined by small, predictable sets of core herbivores, these defining sets do not exist for the other two of the studied Asteraceae species. Communities on Piper were also more specialized, with 62.8% of the caterpillar species considered monophagous at plant species level, than on Asteraceae with only 11.6% monophagous species. The observed diversity patterns point mainly to shaping by (chemical) plant-herbivore-defense, while geographic range and local abundance of host plants appear to have only limited and varying influence on the associated caterpillar communities.
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Keywords: |
Lepidoptera |
piper |
beating tray |
visual search |
sampling efficiency |
Strutzenberger, P.; Brehm, G. & Fiedler, K. (2011): DNA barcoding-based species delimitation increases species count of Eois (Geometridae) moths in a well-studied tropical mountain forest by up to 50%. Insect Science 18, 349?362.
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Abstract:
Abstract:
The genus Eois comprises an important part of megadiverse assemblages of
geometrid moths in mountain rainforests of southern Ecuador. In this study we report:
(i) on the construction of a DNA barcode library of Eois for identification purposes;
and (ii) the exploration of species diversity through species delimitation by pair-wise
distance thresholds. COI barcode sequences were generated from 408 individuals (at
least 105 species) collected on a narrow geographic scale (∼40 km2) in the Reserva
Biol´ogica San Francisco. Analyses of barcode sequence divergence showed that species
delimitations based solely on external morphology result in broad overlap of intra- and
interspecific distances. Species delimitation at a 2% pair-wise distance threshold reveals
a clear barcoding gap. Fifty-two previously unrecognized species were identified, 31 of
which could only be distinguished by an integrative taxonomy approach. Twelve additional
putative species could only be recognized by threshold-based delimitation. Most splits
resulted in two or three newly perceived cryptic taxa. The present study increased the
number of Eois species recorded from that small area of Andean mountain forest from
102 to 154 (morphology- plus integrative taxonomy-based) or even 166 (sequence-based),
leaving the species accumulation curve still far from reaching an asymptote. Notably, in
no case did two or more previously distinguished morphospecies have to be lumped. This
barcode inventory can be used to match larvae to known adult samples without rearing,
and will therefore be of vital help to extend the currently limited knowledge about food
plant relationships and host specialization.
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Keywords: |
Ecuador |
Larentiinae |
cryptic species |
integrative taxonomy |
larvae |
Strutzenberger, P. & Fiedler, K. (2011): Temporal patterns of diversification in Andean Eois, a species-rich clade of moths (Lepidoptera, Geometridae). Journal of Evolutionary Biology 24, 919-925.
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DOI: 10.1111/j.1420-9101.2010.02216.x
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Abstract:
Abstract:
The timing of the origin of present day Neotropical animal diversity is still a matter of debate. For a long time, a preponderance of glacial (i.e. Pleistocene) radiations has been proposed. However, recent data from molecular clock studies indicate a preglacial origin for most of the examined taxa. We performed a fossil-calibrated molecular dating analysis of the genus Eois, which is a major component of one of the world?s most diverse assemblages of herbivorous insects. We found that diversification of Eois took place in the Miocene following a pattern best explained by density-dependent diversification. A strong slowdown of diversification towards the present was detected. Diversification of Eois does overlap with increased Andean uplift and diversification of the most commonly used host plant genus Piper. These findings match the patterns found for the majority of Neotropical tetrapods and for three other unrelated, ecologically different lepidopteran genera.
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Keywords: |
herbivorous insects |
radiation patterns |
biodiversity hotspots |
density-dependent diversification |
lognormal uncorrelated clock |
Beck, J.; Brehm, G. & Fiedler, K. (2010): Links between the environment, abundance and diversity of Andean moths. Biotropica 43, 208-217.
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DOI: 10.1111/j.1744-7429.2010.00689.x
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Abstract:
Abstract:
Ideas on the spatial variation of biodiversity often imply a causal link between the abundance and species richness of organisms. We investigated this ?more individuals hypothesis? using light-trapping data of three unrelated groups of moths (Arctiidae, Geometridae and Pyraloidea) from the Ecuadorian Andes. We analyzed environmental correlates of specimen densities found in different habitats, finding effects of temperature, moonlight, forest succession, elevation and season. We corrected abundance data for light-trapping artefacts, and we measured species diversity with various metrics known to be unbiased by undersampling. We found significant positive correlations between abundance and species diversity for all three taxonomic groups. We discuss implications for a general evaluation of species-energy theory as well as for a better understanding of ecological processes in montane habitats of the Andes.
Brehm, G. (2010): Diversity of geometrid moths in two Neotropical montane rain forests. In: L.A. Bruijnzeel, F.N. Scatena, L.S. Hamilton (eds.): Tropical montane cloud forests ( ), Cambridge University Press, Cambridge, 192-196.
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Abstract:
Abstract:
The diversity of geometrid moths (Lepidoptera:
Geometridae) was investigated in two tropical montane
cloud forests in southern Ecuador and in central Costa
Rica. The study covered an elevational range from c.
1000 to 2700 m.a.s.l. in both locations. Data were
analyzed for eight sites, representing four elevations in
each of the two study areas. A total of 770 species (4569
specimens) were sampled in Ecuador vs. 503 in Costa
Rica (7303 specimens). Sampling was incomplete and it
is expected that more species will be found in both areas.
Moth diversity was extremely high in Ecuador and
almost invariably higher than at comparable elevations
in Costa Rica. Values of Fisher?s a index ranged between
70 and 131 in Ecuador, and between 31 and 83 in Costa
Rica. An analysis of rarefied species numbers led to very
similar results. At a level of 390 rarefied specimens, the
range was 131?179 species at the Ecuadorian sites, vs.
77?140 at the Costa Rican sites. Only 64 (5.3%) out of the
total of 1209 species were common to both areas. The
results of this study underline the fact that the tropical
Andean mountains are one of the ?hot spots? of local
diversity of geometrid moths, and that the threatened
Andean cloud forests should be given the highest priority
in conservation policy. Similarly, countries like Costa
Rica, which are already actively engaged in nature
conservation, may find additional motivation in the
present results to continue their efforts.
Bodner, F.; Mahal, S.; Reuter, M. & Fiedler, K. (2010): Feasibility of a combined sampling approach for studying caterpillar assemblages ? a case study from shrubs in the Andean montane forest zone. Journal of Research on the Lepidoptera 43, 27-35.
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Abstract:
Abstract:
We analyzed the suitability of a combined sampling approach ? consisting of visual search
and branch-beating ? for quantifying tropical caterpillar communities. Surveys were conducted in the
Ecuadorian montane forest zone, with two shrub species from the genus Piper serving as focal targets.
We sampled 160 shrubs in the course of four experiments following a standardized sampling protocol.
Subsequently each shrub was completely defoliated accompanied by an intensive leaf-by-leaf search, in
an effort to extract as close to 100% of all present caterpillars as possible. We analyzed the resulting
dataset with regard to completeness, taxonomical bias, and influences of daytime, complexity of shrub
structure, or experience of the researcher. The standardized sampling protocol extracted between
50.6% and 71.6% of the caterpillars present on a shrub. A minor taxonomic bias of the sampling
protocol was observed, but appears to be of a simple and predictable nature, and is therefore easy to
account for. We did not find any significant influences of daytime. Structure and size of shrubs had
a strong influence on sampling results with small and simply structured shrubs being sampled most
completely, large and complex shrubs most incompletely in our dataset. Researcher experience did
not appear to have an influence on the sampling efficiency or taxonomic composition of samples
obtained when we compared caterpillars obtained by standardized sampling with those collected by
exhaustive leaf-by-leaf search. Comparison of caterpillar sizes revealed however, that inexperienced
field assistants tended to overlook large fractions of the smallest caterpillars entirely. We conclude
that our standardized combined sampling approach is fairly suitable for studies concerning caterpillar
communities, especially when resampling of the same shrub individuals is desired.
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Keywords: |
Lepidoptera |
piper |
beating tray |
visual search |
sampling efficiency |
Strutzenberger, P.; Brehm, G.; Bodner, F. & Fiedler, K. (2010): Molecular phylogeny of Eois (Lepidoptera, Geometridae): evolution of wing patterns and host plant use in a speciesrich group of Neotropical moths. Zoologica Scripta 39, 603-620.
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DOI: 10.1111/j.1463-6409.2010.00440.x
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Abstract:
Abstract:
Eois is a pantropical genus of Geometridae moths with currently 250 valid described species, the majority of which occur in the Neotropics. Eois is a prominent component of Andean moth communities locally accounting for up to ca. 10% of geometrid individuals. We address the evolution of wing patterns and host plant use in Neotropical Eois and provide a preliminary assessment on the monophyly and biogeographic history of the entire genus as well as affinities within the subfamily Larentiinae. We applied Bayesian, maximum likelihood and maximum parsimony methods of phylogenetic reconstruction to a 142 taxon dataset of partial COI (1220 bp) and Ef1a (1066 bp) sequences resulting in the largest taxon set of geometrid moths analyzed in a molecular phylogenetic study so far. Monophyly of Eois was always strongly supported. Ten monophyletic clades were found with good support, seven of which have characteristic wing pattern phenotypes. Only one wing pattern type occurs in two clades. Trophic associations with representatives of the family Piperaceae occur in all 8 (of 9) Neotropical clades for which host information is available. Apart from feeding on Piper, at least two Eois species in Ecuador feed on Peperomia, and one on Manekia (all Piperaceae); two further species live on Hedyosmum (Chloranthaceae). Species feeding on Peperomia, Manekia and Hedyosmum are usually nested in Piper-associated clades. Single records of associations with Gesneriaceae and Monimiaceae are scattered in otherwise Piperaceae-associated clades. These patterns suggest multiple parallel host shifts away from Piper as ancestral food plant. Old World Eois were recovered as monophylum and sister to Neotropical Eois. Within the subfamily Larentiinae the genus Eois has previously been placed close to the tribe Eupitheciini, but this was not supported in our phylogenetic analyses.
Bodner, F.; Brehm, G.; Homeier, J.; Strutzenberger, P. & Fiedler, K. (2010): Caterpillars and host plant records for 59 species of Geometridae (Lepidoptera) from a montane rainforest in southern Ecuador. Journal of Insect Science 10:63, 1-22.
Brehm, G. (2009): Patterns of arctiid diversity. In: William E. Connor (eds.): Tiger moths and woolly bears - behavior, ecology and evolution of the Arctiidae (1st edition ), Oxford University Press, New York, 223-232.
Strutzenberger, P.; Brehm, G.; Bodner, F.; Zimmermann, R.; Wiemers, M. & Fiedler, K. (2009): DNA barcoding and molecular phylogeny of Eois moths (Geometridae) from southern Ecuador. Spixiana 32, 131.
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Abstract:
Abstract:
The genus Eois (Larentiinae) comprises an important part of a megadiverse assemblage of geometrid moths in the mountain rainforests of southern Ecuador. Owing to the diversity of morphotypes found in this genus, the abundance of many of its component species, and the close relationships with larval food plants in the genus Piper, the genus Eois has been chosen as a target for a more detailed investigation of local species diversity, species delimitations, and ecological segregation. COI barcode sequences (676 bp) were generated from approximately 350 individuals to establish an inventory of DNA barcodes from one study area (Reserva Biológica San Francisco). This inventory will be used to match larvae to known adult samples and will be of vital help to extend the currently very limited knowledge about food plant relationships and host specialization. Analyses of barcoding sequence divergence show that when a conservative morphology-based approach in species delimitation is used a few cases arise were maximum
within-species distances exceed minimum betweenspecies distances. However, there is a varying degree of evidence for the presence of cryptic species in all of these critical cases, as gained from analyses of elongation factor 1-alpha sequences, phylogenetic analysis and morphological reexamination. Up to 33 previously unrecognized species could be identified with the help of COI barcodes and morphological evidence in addition to at least 10 entirely new species, thereby increasing the number of Eois morphospecies in that small area of Andean mountain forests from 99 to 142. Notably there are no cases where two or more
previously known morphospecies had to be lumped (i.e. there was no cryptic polymorphism). Morphospecies were either confirmed or evidence for cryptic species was found. We acquired elongation factor 1-alpha sequences and extended COI sequences of
approximately 100 individuals representing at least 70 Eois species amounting to a combined sequence dataset of ~2200 bp. Maximum parsimony and Bayesian inference of phylogeny have been employed to estimate relationships within Eois. Phylogenetic trees reveal that all included wing-pattern types except for one evolved only once. The exception to this rule occurs in the most basal clade whose species closely resemble those in a clade higher up in the tree. This may represent an ancestral character state or the result of convergent evolution. Additionally it could be determined that species known to feed on Piper are spread over most of the major clades within Eois, indicating that the host plant relationship with Piper is indeed a trait found all over the neotropical members of the genus and not just certain subclades. Within the Larentiinae Eois has traditionally been placed close to the Eupitheciini, but there is presently no support for such a placement in our phylogenetic analyses.
Bodner, F.; Brehm, G.; Homeier, J.; Strutzenberger, P. & Fiedler, K. (2009): Caterpillars and host plant records for 59 species of Geometridae (Lepidoptera) from a montane rainforest in southern Ecuador. Journal of Insect Science 10, E-Journal, no pages.
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Abstract:
Abstract:
During four months of field surveys at the Reserva Biológica San Francisco in the south Ecuadorian Andes, caterpillars of 59 Geometridae species were collected in a montane rainforest between 1800 and 2800m altitude and reared to adults. The resulting data on host plant affiliations of these species was collated. The preimaginal stages of 58 and adult stages of all 59 species are depicted in colour plates. Observations on morphology and behaviour are briefly described. Five species, documented for the first time in the study area by means of larval collections, had not been previously collected by intensive light-trap surveys. Together with published literature records, life-history data covers 8.6% of the 1271 geometrid species observed so far in the study area. For 50 species these are the first records of their early stages, and for another 7 the data significantly extend known host plant ranges. Most larvae were collected on shrubs or trees, but more unusual host plant affiliations, such as ferns (6 geometrid species) and lichens (3 geometrid species), were also recorded. Thirty-four percent of the caterpillars were infested by wasp or tachinid parasitoids.
Fiedler, K.; Hilt, N.; Brehm, G. & Soplin Roque, H. (2007): Moths at tropical forest margins ? how mega-diverse insect assemblages respond to forest disturbance and recovery. In: Teja Tscharntke et al (eds.): The stability of tropical rainforest margins, linking ecological, economic and social constraints of ( ), Springer, Berlin - Heidelberg, 39-60.
Fiedler, K.; Brehm, G.; Hilt, N.; Suessenbach, D. & Haeuser, C.L. (2008): Variation of Diversity Patterns Across Moth Families Along a Tropical Elevational Gradient. In: Beck, Erwin; Bendix, Jörg; Kottke, Ingrid; Makeschin, Franz; Mosandl, Reinhard (eds.): Gradients in a Tropical Mountain Ecosystem of Ecuador (Ecological Studies 198), Springer, Berlin Heidelberg, 167-180.
Hilt, N. & Fiedler, K. (2008): Successional Stages of Faunal Regeneration - A Case Study on Megadiverse Moths. In: Beck, Erwin; Bendix, Jörg; Kottke, Ingrid; Makeschin, Franz; Mosandl, Reinhard (eds.): Gradients in a Tropical Mountain Ecosystem of Ecuador (Ecological Studies 198), Springer, Berlin Heidelberg, 459-466.
Brehm, G. (2004): A new species of Oenoptila Warren, 1895 from the Andes (Lepidoptera: Geometridae, Ennominae). Entomologische Zeitschrift 114, 278-280.
Brehm, G. (2005): A revision of the Acrotomodes clota Druce, 1900 species-group (Lepidoptera: Geometridae, Ennominae). Entomologische Zeitschrift 115, 75-80.
Brehm, G.; Homeier, J.; Fiedler, K.; Kottke, I.; Illig, J.; Noeske, N.M.; Werner, F.A. & Breckle, S.W. (2008): Mountain rain forests in southern Ecuador as a hotspot of biodiversity - limited knowledge and diverging patterns. In: Beck, Erwin; Bendix, Jörg; Kottke, Ingrid; Makeschin, Franz; Mosandl, Reinhard (eds.): Gradients in a Tropical Mountain Ecosystem of Ecuador (Ecological Studies 198), Springer, Berlin Heidelberg, 15-24.
Brehm, G.; Fiedler, K.; Haeuser, C.L. & Dalitz, H. (2008): Methodological challenges of a megadiverse ecosystem. In: Beck, Erwin; Bendix, Jörg; Kottke, Ingrid; Makeschin, Franz; Mosandl, Reinhard (eds.): Gradients in a Tropical Mountain Ecosystem of Ecuador (Ecological Studies 198), Springer, Berlin Heidelberg, 41-47.
Haeuser, C.L.; Fiedler, K.; Bartsch, D.; Brehm, G.; Kling, M.; Suessenbach, D. & Onore, G. (2007): Butterflies (Lepidoptera: Papilionoidea). Checklist of the Reserva Biológica San Francisco (Prov. Zamora-Chinchipe, S-Ecuador). Ecotropical Monographs 4, 145-154.
Fiedler, K.; Brehm, G.; Suessenbach, D.; Onore, G.; Bartsch, D.; Racheli, L. & Haeuser, C.L. (2007): Lepidoptera: Arctiidae, Geometridae, Hedylidae, Pyraloidea, Sphingidae, Saturniidae, and Uraniidae (moths). Checklist of the Reserva Biológica San Francisco (Prov. Zamora-Chinchipe, S-Ecuador). Ecotropical Monographs 4, 155-217.
Brehm, G.; Hartmann, T. & Willmott, K.R. (2007): Pyrrolizidine alkaloids and pharmacophagous Lepidoptera visitors of Prestonia amabilis (Apocynaceae) in a montane rain forest in Ecuador. Annals of the Missouri Botanical Garden 94, 465-475.