The evolution of echolocation in swiftlets

The abilities of some cave-nesting swiftlets to echolocate has traditionally been used to separate the genus Aerodramus , which includes echolocating species, from the genus Collocalia , thought to lack echolocation. Here we report the discovery of echolocation in a member of the latter genus, the pygmy swiftlet Collocalia troglodytes . We also present a well-supported molecular phylogeny for the swiftlets and their relatives based on DNA sequence data from two mitochondrial genes, which we use to reconstruct the evolution of echolocation. Our data provide strong evidence that the swiftlets are a monophyletic group. This monophyly plus the presence of echolocation in C. troglodytes indicate that either (1) echolocation evolved much earlier in the swiftlets than previously thought and has since been lost in most Collocalia taxa, or (2) this ability evolved independently in Aerodramus and Collocalia . Based on our results, echolocation can no longer be considered a useful character for distinguishing these two genera.     

Phylogenetic relationships of the Papuan Swiftlet Aerodramus papuensis and implications for the evolution of avian echolocation

The swiftlets (genera Aerodramus , Collocalia and Hydrochous ) are unusual among birds in that many species can orientate in complete darkness using echolocation. The position of the Papuan Swiftlet Aerodramus papuensis in this group has been uncertain historically, in part due to morphological differences between it and other swiftlets (it has three toes instead of the usual four) and a lack of data on its behaviour (there is uncertainty about whether it echolocates). Here we investigate the phylogenetic affinities of the Papuan Swiftlet using DNA sequence data from two mitochondrial genes, cytochrome b and ND2. We present evidence that it is able to echolocate but, unlike previously studied species that use echolocation primarily while flying in caves, A. papuensis uses this ability while active outside caves at night. We also provide new evidence for placement of the monotypic Waterfall Swiftlet Hydrochous gigas , a species that does not echolocate. Our data provide strong support for a basal relationship between A. papuensis and other Aerodramus taxa and suggest that this species and H. gigas are sister taxa, a relationship that would indicate paraphyly of the genus Aerodramus . Our phylogeny provides new insights into how echolocation has evolved in the swiftlets, in particular by indicating higher levels of homoplasy in this trait than was previously thought.     

Genetic homogeneity among colonies of the white-nest swiftlet (Aerodramus fuciphagus) in Thailand

The white-nest swiftlet, Aerodramus fuciphagus, originally lived in large colonies in natural caves, but now it also occurs in man-made buildings. We investigated the patterns of genetic differentiation in two mitochondrial DNA genes (cyt-b and ND2) and eight microsatellite loci among and within colonies of A. fuciphagus from across recently established man-made colonies in Thailand. Ten white-nest swiftlet colonies were sampled along the coast of the Gulf of Thailand and the Andaman Sea in Thailand during 2003-2006. The genetic diversity of mtDNA was very low, and few significant PhiST values were found between pairs of colonies. Analyses of haplotype relationships did not show genetic structure across the sampled distribution. The level of genetic diversity for microsatellite loci was high, but FST values were not significant. However, due to small sample sizes for some colonies that could limit conclusions on genetic differentiation from PhiST and FST, we also analyzed the microsatellite data using STRUCTURE and found that number of subpopulations of white-nest swiftlets in sampled colonies was one. The lack of genetic differentiation among swiftlet house colonies could be a result of high gene flow between colonies and large population sizes. Our results suggest that A. fuciphagus living in recently established man-made colonies in Thailand should be considered members of a single panmictic population. Future work will be necessary to determine whether this panmixia is stable or a temporary result of the recent explosive expansion of the number of colonies, and comparisons to natural colonies may provide an understanding of mechanisms producing the lack of genetic structure in swiftlet house colonies.     

Phylogeny of the Falconidae (Aves): a comparison of the efficacy of morphological, mitochondrial, and nuclear data

We sequenced 2800+ bp of the RAG-1 exon for representatives of all the currently recognized genera in the avian family Falconidae. A phylogenetic analysis of these data was compared to prior analyses of mitochondrial (cytochrome-b) and morphological (syringeal) data. The nuclear RAG-1 sequences produced results that were in agreement with the morphological results, but differed from the mitochondrial results with regard to monophyly of the genus Micrastur. A reanalysis of the cytochrome-b (cyt-b) data suggested that this result was due to heterogeneity in base composition. Comparisons of data quality and quantity across the three data sets indicate that the nuclear DNA sequences and the morphological data have similar consistency and retention indices as well as noise distributions that are superior to those of cyt-b. However, the RAG-1 data identify more nodes with high bootstrap support indices than do either morphology or mitochondrial sequences. In the final assessment, RAG-1 sequences were superior in phylogenetic utility both to syringeal morphology (because of sheer number of characters) and to cyt-b sequences (because of reduced noise and homogeneity of base composition, but in spite of having many fewer characters).     

The complete mitochondrial DNA sequence of the Mekong giant catfish (Pangasianodon gigas), and the phylogenetic relationships among Siluriformes

The Mekong giant catfish (Pangasianodon gigas) is the largest scale-less freshwater fish of the world, and a critically endangered species. We determined the complete nucleotide sequence (16,533 bp) of the mitochondrial genome of the Mekong giant catfish, and conducted phylogenetic analyses based on mitochondrial protein (the combined amino acid sequences of all 13 mitochondrial protein coding genes) and rRNA (the combined nucleotide sequences of mitochondrial 12S and 16S rRNA genes) data sets in order to further clarify the relative phylogenetic position of P. gigas, and to recover phylogenetic relationships among 15 out of the 33 families of Siluriformes. Phylogenetic analyses (maximum parsimony, minimum evolution, maximum likelihood, Bayesian inference) of the protein data set were congruent with a basal split of the order into Loricarioidei and Siluroidei, and supported a closer relationship of the Mekong giant catfish (family Pangasiidae) to Siluridae than to Bagridae. The rRNA-based Bayesian phylogeny recovered Callichthyidae as the sister group of all other analyzed non-diplomystid catfish families, rendering Loricarioidei paraphyletic. In addition, Loricariidae were recovered as paraphyletic due to the inclusion of Astroblepidae. However, none of the two relationships received bootstrap support in the maximum parsimony, minimum evolution, and maximum likelihood analyses, and should be interpreted with caution. The derived position of Cetopsidae within Siluroidei, the sister group relationship of Pseudopimelodidae and Pimelodidae, and a close relationship of Doradidae and Auchenipteridae to the exclusion of Mochokidae were strongly supported. Pangasiidae was placed as a single lineage without clear affinities.     

New DNA data from a transthyretin nuclear intron suggest an Oligocene to Miocene diversification of living South America opossums (Marsupialia: Didelphidae)

Phylogenetic relationships of 19 species of didelphid marsupials were studied using two nuclear markers, the non-coding transthyretin intron 1 (TTR) and the coding interphotoreceptor retinoid binding protein exon 1 (IRBP), and two mitochondrial genes, the protein-coding cytochrome b (cyt-b) and the structural 12S ribosomal DNA (12S rDNA). Evolutionary dynamics of these four markers were compared to each other, revealing the appropriate properties presented by TTR intron 1 together with its well supported and resolved phylogenetic signal. Nuclear markers supported the monophyly of medium and large-sized opossums Metachirus+(Chironectes, Lutreolina, Didelphis, Philander), and the paraphyly of mouse-sized opossums, with the genera Gracilinanus, Thylamys, and Marmosops as a sister group to medium and large-sized didelphids. Conflicting branching patterns between mitochondrial and nuclear data involved the phylogenetic position of Marmosa-Micoureus-Monodelphis relative to other mouse-sized opossums. Nuclear phylogenetic inferences among genera were confirmed by the presence of synapomorphic indels observed in TTR intron 1. A Bayesian relaxed molecular clock dating of didelphid evolution using nuclear markers estimated their origin in the Middle Eocene (39.8 million years ago), with subsequent diversification during the Oligocene (Deseadan) and Miocene.     

短嘴金丝燕的回声定位机制与其归巢行为的探究

通过对短嘴金丝燕(Aerodramus brevirostris)的传统遮挡放飞实验和飞行行为的观察,研究短嘴金丝燕回声定位的机制,同时利用SONY MD录音并用Cool Edit2.1软件进行声波分析,证明了该物种是能利用回声定位的鸟类。该物种定位的声波主频较低,所以其定位能力没有蝙蝠(Chiroptera)那样精确,个体主要还是依靠视觉定位,只有在全黑的情况下才利用声音定位的。     

Comparative and phylogenetic analysis of the echo clicks and social vocalizations of swiftlets (Aves: Apodidae)

Several swiftlet species echolocate to navigate in the darkness of their nesting caves. We investigated whether swiftlets' echo clicks and social vocalizations differed among species and whether they could be used in phylogenetic inference. We incorporated echo clicks of eight swiftlet species and social vocalizations of 27 echolocating and nonecholocating swifts and swiftlets. Characters in the frequency and time domain were used and analysed using nonparametric multivariate analysis of variance and stepwise discriminant analysis. We performed maximum parsimony analyses and character mapping to investigate phylogenetic signal and evolutionary patterns of swiftlet vocalizations. Echo clicks were species-specific. As well as in navigation, they may be used in recognition of conspecifics. Social vocalizations were species-specific also. However, the vocalizations contained no phylogenetic interpretable information. Maximum parsimony trees of echo clicks and of social vocalizations were almost completely unresolved. Moreover, resolved branches showed no congruence to a DNA-based tree that had been obtained previously. Mapping of the vocalization characters on the DNA-based tree revealed no consistent phylogenetic patterns. © 2006 The Linnean Society of London, Biological Journal of the Linnean Society , 2006, 88 , 631–643.     

Phylogeny of eagles, Old World vultures, and other Accipitridae based on nuclear and mitochondrial DNA

We assessed phylogenetic relationships for birds of prey in the family Accipitridae using molecular sequence from two mitochondrial genes (1047 bases ND2 and 1041 bases cyt-b) and one nuclear intron (1074 bases beta-fibrinogen intron 7). We sampled representatives of all 14 Accipitridae subfamilies, focusing on four subfamilies of eagles (booted eagles, sea eagles, harpy eagles, and snake eagles) and two subfamilies of Old World vultures (Gypaetinae and Aegypiinae) with nearly all known species represented. Multiple well-supported relationships among accipitrids identified with DNA differ from those traditionally recognized based on morphology or life history traits. Monophyly of sea eagles (Haliaeetinae) and booted eagles (Aquilinae) was supported; however, harpy eagles (Harpiinae), snake eagles (Circaetinae), and Old World vultures were found to be non-monophyletic. The Gymnogene (Polyboroides typus) and the Crane Hawk (Geranospiza caerulescens) were not found to be close relatives, presenting an example of convergent evolution for specialized limb morphology enabling predation on cavity nesting species. Investigation of named subspecies within Hieraaetus fasciatus and H. morphnoides revealed significant genetic differentiation or non-monophyly supporting recognition of H. spilogaster and H. weiskei as distinctive species.     

Molecular systematics of Salmonidae: combined nuclear data yields a robust phylogeny

The phylogeny of salmonid fishes has been the focus of intensive study for many years, but some of the most important relationships within this group remain unclear. We used 269 Genbank sequences of mitochondrial DNA (from 16 genes) and nuclear DNA (from nine genes) to infer phylogenies for 30 species of salmonids. We used maximum parsimony and maximum likelihood to analyze each gene separately, the mtDNA data combined, the nuclear data combined, and all of the data together. The phylogeny with the best overall resolution and support from bootstrapping and Bayesian analyses was inferred from the combined nuclear DNA data set, for which the different genes reinforced and complemented one another to a considerable degree. Addition of the mitochondrial DNA degraded the phylogenetic signal, apparently as a result of saturation, hybridization, selection, or some combination of these processes. By the nuclear-DNA phylogeny: (1) (Hucho hucho, Brachymystax lenok) form the sister group to (Salmo, Salvelinus, Oncorhynchus, H. perryi); (2) Salmo is the sister-group to (Oncorhynchus, Salvelinus); (3) Salvelinus is the sister-group to Oncorhynchus; and (4) Oncorhynchus masou forms a monophyletic group with O. mykiss and O. clarki, with these three taxa constituting the sister-group to the five other Oncorhynchus species. Species-level relationships within Oncorhynchus and Salvelinus were well supported by bootstrap levels and Bayesian analyses. These findings have important implications for understanding the evolution of behavior, ecology and life-history in Salmonidae.     

Phylogeny and evolution of Cervidae based on complete mitochondrial genomes

Mitochondrial DNA sequences can be used to estimate phylogenetic relationships among animal taxa and for molecular phylogenetic evolution analysis. With the development of sequencing technology, more and more mitochondrial sequences have been made available in public databases, including whole mitochondrial DNA sequences. These data have been used for phylogenetic analysis of animal species, and for studies of evolutionary processes. We made phylogenetic analyses of 19 species of Cervidae, with Bos taurus as the outgroup. We used neighbor joining, maximum likelihood, maximum parsimony, and Bayesian inference methods on whole mitochondrial genome sequences. The consensus phylogenetic trees supported monophyly of the family Cervidae; it was divided into two subfamilies, Plesiometacarpalia and Telemetacarpalia, and four tribes, Cervinae, Muntiacinae, Hydropotinae, and Odocoileinae. The divergence times in these families were estimated by phylogenetic analysis using the Bayesian method with a relaxed molecular clock method; the results were consistent with those of previous studies. We concluded that the evolutionary structure of the family Cervidae can be reconstructed by phylogenetic analysis based on whole mitochondrial genomes; this method could be used broadly in phylogenetic evolutionary analysis of animal taxa.     

Base compositional bias and phylogenetic analyses: a test of the "flying DNA" hypothesis

Phylogenetic methods can produce biased estimates of phylogeny when base composition varies along different lineages. Pettigrew (1994, Curr. Biol. 4:277-280) has suggested that base composition bias is responsible for the apparent support for the monophyly of bats (Chiroptera: megabats and microbats) from several different nuclear and mitochondrial genes. Pettigrew's "flying DNA" hypothesis makes several predictions: (1) that metabolic constraints associated with flying result in elevated levels of adenine and thymine throughout the genome of both megabats and microbats, (2) that the resulting base compositional bias in bats is sufficient to mislead phylogenetic methods and account for the support for bat monophyly from several nuclear and mitochondrial genes, and (3) that phylogenetic analysis using pairwise distances corrected for compositional bias should eliminate the support for bat monophyly. We tested these predictions by analyzing DNA sequences from two nuclear and three mitochondrial genes. The predicted base compositional bias does not appear to exist in some of the genes, and in other genes the differences in AT content are very small. Analyses under a wide diversity of criteria and models of evolution, including analyses that take base composition into account (using log-determinant distances), all strongly support bat monophyly. Moreover, simulation analyses indicate that even extreme bias toward AT-base composition in bats would be insufficient to explain the observed levels of support for bat monophyly. These analyses provide no support for the "flying DNA" hypothesis, whereas the monophyly of bats appears to be well supported by the DNA sequence data.     

The sensitivity of echolocation by the Grey Swiftlet Aerodramus spodiopygius

Experiments were carried out to study the sensitivity of the echolocation system of the Grey Swiftlet Aerodramus spodiopygius to cylindrical aluminium rods of 1, 5, 10 and 20 mm diameters. Using a method of statistical analysis which enabled the data to be compared with the chance performance of a randomly moving (non-echolocating) missile, the results indicated that this species could echolocate the 20 mm diameter rods but those of smaller diameter were hit in an approximately random fashion. It is concluded that the sensitivity threshold of A. spodiopygius lies between 10 and 20 mm diameter for cylindrical metal rods under the prevailing experimental conditions. Comparisons with other data on the sensitivity of this and other swiftlet species are discussed.     

The diets of Malaysian swiftlets

Four species of swiftlet (Aves: Apodidae), two of which produce 'edible nests', occur sympatrically in Malaysia. Food boluses were analysed to investigate (1) diet differences and resource partitioning among the four species and (2) the influence of habitat on the diet of the Glossy Swiftlet Collocalia esculenta. Hymenoptera and diptera were the most abundant prey in all diets. Black-nest Swiftlets Aerodramus maximus were extremely selective; 89% of the items taken were hymenoptera, of which 97% were flying ants. White-nest Swiftlets A. fuciphagus and Mossy-nest Swiftlets A. salanganus took more than twice as many prey items as either of the other species. Their diets were taxonomically diverse and differed only in the average prey size taken, Mossy-nest Swiftlets taking the larger prey. Glossy Swiftlets took a higher proportion of coleoptera than did the other species. For the habitat comparisons, diptera were the main constituents of the Glossy Swiftlet diet in an urban habitat (71% of total prey items), whereas hymenoptera predominated in forest habitat (42% of total prey items). The results suggest that diet separation occurs among the four species of Malaysian swiftlet, in relation to both species and habitat. The implications of potentially habitat-driven dietary changes are discussed for the edible-nest swiftlets.     

短嘴金丝燕回声定位叫声特征

2012年6月,对湖南省石门县壶瓶山国家级自然保护区神景洞短嘴金丝燕的回声定位叫声进行研究,在黑暗山洞内使用录音仪器录制其自由飞行状态的声音后使用声音软件进行分析.短嘴金丝燕捕食归巢时,快速飞入洞口,在洞内有光区域不发声,到达洞内黑暗区域后开始发出回声定位叫声,且飞行速度减慢.声音分析结果表明其回声定位叫声为双脉冲组的噪声脉冲串型(noise burst),组内脉冲间隔很短[(6.6±0.42)ms],组间脉冲间隔较长[(99.3±3.86) ms],两者差异显著(P＜0.01).对比第一、第二脉冲声音参数发现,主频和脉冲时程差异不显著,第一、第二脉冲主频分别为(6.2±0.08) kHz和(6.2±0.10) kHz (P＞0.05);脉冲时程分别为(2.9±0.12) ms和(3.2±0.17) ms (P＞0.05);最高和最低频率差异显著,第一、第二脉冲最高频率分别为(20.1±1.10) kHz和(15.4±0.98) kHz (P＜0.01),最低频率分别为(3.7±0.12) kHz和(4.0±0.09)kHz (P＜0.05);第一脉冲频宽((16.5±1.17) kHz)宽于第二脉冲((11.4±1.01) kHz) (P＜0.01);且第一脉冲能量[(-32.5±0.60) dB]高于第二脉冲[(-35.2±0.94) dB] (P＜0.05).另外,短嘴金丝燕在黑暗山洞内的回声定位叫声还包含了部分超声波,最高频率可达33.2 kHz.     

Double trouble for grasshopper molecular systematics: intra-individual heterogeneity of both mitochondrial 12S-valine-16S and nuclear internal transcribed spacer ribosomal DNA sequences in Hesperotettix viridis (Orthoptera: Acrididae)

Abstract.  Hesperotettix viridis grasshoppers (Orthoptera: Acrididae: Melanoplinae) exhibit intra-individual variation in both mitochondrial 12S-valine-16S and nuclear internal transcribed spacer (ITS) ribosomal DNA sequences. These findings violate core assumptions underlying DNA sequence data obtained via polymerase chain reaction (PCR) amplification for use in molecular systematics investigations. Undetected intra-individual variation of this sort can confound phylogenetic analyses at a range of taxonomic levels. The use of a DNA extraction protocol designed to enrich mitochondrial DNA as well as an initial long PCR of approximately 40% of the grasshopper mitochondrial genome failed to control for the presence of paralogous mitochondrial DNA-like sequences within individuals. These findings constitute the first demonstration of intra-individual heterogeneity in mitochondrial DNA-like sequences in the grasshopper subfamily, Melanoplinae, and only the second report of intra-individual variation in nuclear ITS ribosomal DNA sequences in grasshoppers. The fact that intra-individual variation was detected in two independent DNA marker sets in the same organism strengthens the notion that the orthology of PCR-derived DNA sequences should be examined thoroughly prior to their use in molecular phylogenetic analyses or as DNA barcodes.     

Marmot phylogeny revisited: molecular evidence for a diphyletic origin of sociality

We established the phylogeny of 11 species of the genus Marmota based on the entire sequence of the mitochondrial cytochrome b ( cyt-b ) gene (1.1 kb) and a partial sequence of the NADH dehydrogenase subunit 4 ( ND4 ) gene (1.2 kb). In three species ( Marmota caligata , Marmota olympus , and Marmota bobac ) full-sized nuclear pseudogenes of the mitochondrial cyt-b were identified. The mitochondrial cyt-b genes and the three pseudogenes form separate clusters in the maximum parsimony dendrogram. This finding suggests that the pseudogenes originated from a single transfer to the nucleus that may have occurred prior to the radiation of the genus Marmota . Notably, compared with their functional mitochondrial equivalents the pseudogenes show a much lower substitution rate. In the dendrograms deduced from the mitochondrial sequences two distinct clusters become apparent: one cluster consists of the North-west American species, the other contains the Eurasian species together with the North American species Marmota monax . The position of M. monax as a member of the Eurasian clade is in accordance with the evolution of chromosome numbers. The results are of special interest with respect to the evolution of social systems in the genus that vary from solitary species ( M. monax ) to highly social species living in family groups (e.g. Marmota marmota ). The molecular phylogeny suggests a diphyletic origin of high sociality in the genus Marmota .     

Ribosomal DNA: molecular evolution and phylogenetic inference.

Ribosomal DNA (rDNA) sequences have been aligned and compared in a number of living organisms, and this approach has provided a wealth of information about phylogenetic relationships. Studies of rDNA sequences have been used to infer phylogenetic history across a very broad spectrum, from studies among the basal lineages of life to relationships among closely related species and populations. The reasons for the systematic versatility of rDNA include the numerous rates of evolution among different regions of rDNA (both among and within genes), the presence of many copies of most rDNA sequences per genome, and the pattern of concerted evolution that occurs among repeated copies. These features facilitate the analysis of rDNA by direct RNA sequencing, DNA sequencing (either by cloning or amplification), and restriction enzyme methodologies. Constraints imposed by secondary structure of rRNA and concerted evolution need to be considered in phylogenetic analyses, but these constraints do not appear to impede seriously the usefulness of rDNA. An analysis of aligned sequences of the four nuclear and two mitochondrial rRNA genes identified regions of these genes that are likely to be useful to address phylogenetic problems over a wide range of levels of divergence. In general, the small subunit nuclear sequences appear to be best for elucidating Precambrian divergences, the large subunit nuclear sequences for Paleozoic and Mesozoic divergences, and the organellar sequences of both subunits for Cenozoic divergences. Primer sequences were designed for use in amplifying the entire nuclear rDNA array in 15 sections by use of the polymerase chain reaction; these "universal" primers complement previously described primers for the mitochondrial rRNA genes. Pairs of primers can be selected in conjunction with the analysis of divergence of the rRNA genes to address systematic problems throughout the hierarchy of life.     

Utility of nuclear DNA intron markers at lower taxonomic levels: phylogenetic resolution among nine Tragelaphus spp

Phylogenetic relationships among the nine spiral-horn antelope species of the African bovid tribe Tragelaphini are controversial. In particular, mitochondrial DNA sequencing studies are not congruent with previous morphological investigations. To test the utility of nuclear DNA intron markers at lower taxonomic levels and to provide additional data pertinent to tragelaphid evolution, we sequenced four nuclear DNA segments (MGF, PRKCI, SPTBN, and THY) and combined these data with mitochondrial DNA sequences from three genes (cytochrome b, 12S rRNA, and 16S rRNA). Our molecular supermatrix comprised 4682 characters which were analyzed independently and in combination. Parsimony and model based phylogenetic analyses of the combined nuclear DNA data are congruent with those derived from the analysis of mitochondrial gene sequences. The corroboration between nuclear and mtDNA gene trees reject the possibility that genetic processes such as lineage sorting, gene duplication/deletion and hybrid speciation account for the conflict evident in the previously published phylogenies. It suggests rather that the morphological characters used to delimit the Tragelaphid species are subject to convergent evolution. Divergence times among species, calculated using a relaxed Bayesian molecular clock, are consistent with hypotheses proposing that climatic oscillations and their impact on habitats were the major forces driving speciation in the tribe Tragelaphini.     

Utility and evolution of cytochrome b in insects

Cytochrome b (cyt-b) is widely used in molecular phylogenetic studies of vertebrate, but not invertebrate, taxa. To determine whether this situation is an historical accident or reflects the utility of cyt-b, we compared the abilities of cyt-b, COI, and one nuclear ribosomal gene region (D1 of 28S) to recover intergeneric relationships within the tiger moth tribes Ctenuchini and Euchromiini. Additionally, we compared the rate of sequence and amino acid evolution of cyt-b across insects. Cytochrome b had the same level of sequence variation and A/T bias as COI, but was less useful for recovering intergeneric relationships. The total evidence tree casts doubt on the traditional taxonomy of the group. For the class Insecta, we found that functional conservation of amino acids occurs for the same regions as those found in vertebrates with the exception of Mallophaga (lice). Lice have an accelerated rate of nonsynonymous substitutions. Accelerated rate of cyt-b nucleotide and amino acid evolution in Apidae (bees) may be correlated with increased metabolic rates associated with facultative endothermy (= heterothermy).