Your search keyword '"latitudinal cline"' showing total 367 results

1. Geographic variation in body size of the migratory locust Locusta migratoria (Orthoptera, Acrididae): Masaki’s cline and phase polyphenism

Author

Tanaka, Seiji and Pensoft Publishers

Subjects

adult head width, latitudinal cline, Sexual size dimorphism, voltinism

Published

2024

2. Geographic variation in leaf traits and palatability of a native plant invader during domestic expansion.

Author

Zhao, Yu‐Jie, Wang, Shengyu, Liao, Zhi‐Yong, Parepa, Madalin, Zhang, Lei, Cao, Peipei, Bi, Jingwen, Guo, Yaolin, Bossdorf, Oliver, Richards, Christina L., Wu, Jihua, Li, Bo, and Ju, Rui‐Ting

Abstract

Like alien plant invasion, range expansion of native plants may threaten biodiversity and economies, rendering them native invaders. Variation in abiotic and biotic conditions across a large geographic scale greatly affects variation in traits and interactions with herbivores of native plant invaders, which is an interesting yet mostly unexplored issue. We used a common garden experiment to compare defensive/nutritional traits and palatability to generalist herbivores of 20 native (23.64° N–30.18° N) and introduced range (31.58° N–36.87° N) populations of Reynoutria japonica, which is a native invader following range expansion in China. We analyzed the relationships among herbivore pressure, climate, plant chloroplast haplotypes, leaf traits, and herbivore performance. Of the 16 variables tested, we observed range differences in 11 variables and latitudinal clines in nine variables. In general, herbivores performed better on the introduced plants than on the native plants, and better on the high‐latitude plants than on the low‐latitude plants within the introduced populations. Three key traits (leaf thickness, specific leaf area, and carbon‐to‐nitrogen [C:N] ratio) determined palatability to herbivores and were significantly associated with temperature and/or precipitation of plant provenance as well as with plant haplotypes but not with herbivore pressure. Our results revealed a causal sequence from plant‐range‐based environmental forces and genetic context to plant quality and palatability to herbivores in R. japonica. These findings suggest a post‐introduction evolution of R. japonica, which may partly explain the colonization success of this important native, but invasive plant. [ABSTRACT FROM AUTHOR]

Published

2024

3. The Composition and Diversity of Soil Microbial Communities Associated With the Invasive Plant Solidago canadensis Vary Across Locations and Time Since Invasion.

Author

Oduor, Ayub M. O., Yuan, Yongge, and Li, Jun‐Min

Subjects

*PHYTOPATHOGENIC microorganisms, *MICROBIAL diversity, *VESICULAR-arbuscular mycorrhizas, *BACTERIAL diversity, *BACTERIAL communities

Abstract

ABSTRACT Aim Location Taxon Methods Results Main Conclusions Previous local‐scale research (within plots or landscapes) has shown that invasive plants can alter the composition and diversity of soil microbial communities, with potential feedback effects on their own invasion success. However, the broader ecological patterns of these interactions across different invasion timescales and geographic regions remain poorly understood. This study investigated whether the composition and diversity of soil microbial communities associated with Solidago canadensis (Canada goldenrod) invasion vary across both population residence times and geographic locations.South‐eastern China.Soil fungal and bacterial communities and S. canadensis.We collected rhizospheric soil of S. canadensis, nonrhizospheric soil and adjacent uninvaded soil from each of 36 populations of S. canadensis with varying residence times (8–89 years), totalling 108 samples. We extracted DNA from these samples and sequenced the V3–V4 region of the bacterial 16S rRNA gene and the ITS2 region of the fungal rDNA. We analysed the DNA sequences to assess whether variation in α‐diversity, β‐diversity, arbuscular mycorrhizal fungi (AMF) richness and the ratio of AMF to plant pathogens in the soil microbial communities varied with S. canadensis population residence time, latitude and longitude.The α‐diversity and β‐diversity of soil fungal and bacterial communities significantly varied with S. canadensis residence times, latitude and longitude. In locations where S. canadensis had been established for longer periods, there was an increase in AMF richness and a decrease in plant pathogens in the rhizospheric soil. Fungal diversity in rhizospheric soils was positively correlated with longitude, while bacterial diversity in rhizospheric and nonrhizospheric soils was positively correlated with both latitude and longitude.These findings indicate that the time since invasion and geographical location can both significantly influence the composition and diversity of soil microbial communities associated with invasive plant species. [ABSTRACT FROM AUTHOR]

Published

2024

4. Climate and genome size shape the intraspecific variation in ecological adaptive strategies of a cosmopolitan grass species.

Author

Guo, Wen‐Yong, Čuda, Jan, Skálová, Hana, Lambertini, Carla, Pierce, Simon, Lučanová, Magdalena, Brix, Hans, Meyerson, Laura A., and Pyšek, Petr

Subjects

*BIOLOGICAL evolution, *NATURAL selection, *PHRAGMITES australis, *GENOME size, *BIOLOGICAL invasions

Abstract

Intraspecific trait variation, essential to Darwin's mechanism of natural selection, has been widely examined for single characters. However, intraspecific variation of adaptive strategies which represent trade‐offs among multiple functional traits has received less attention, particularly for species that are globally distributed or invasive. Grime's competitor, stress tolerator and ruderal (CSR) scheme, well validated in the context of alien species invasions, provides both the theory and quantitative methodology to investigate adaptive strategies.Here, we quantified the intraspecific CSR strategy scores of a worldwide collection of 89 Phragmites australis genotypes which were cultivated in a common garden. We assessed the relationships between intraspecific variation in CSR strategy scores, genome size and climate of origin and tested whether the invasive and native lineages differ in CSR strategies.Substantial variation in intraspecific adaptive strategy, characterized mainly in C‐ and S‐selection, was observed. As expected, C‐, S‐ and R‐scores showed clear latitudinal clines and were strongly related to either genome size or climate of origin. Furthermore, invasive lineages were more stress adapted than native lineages.We conclude that the adaptive strategy of this perennial wetland grass varies globally, and its genotypes are surprisingly more stress tolerant in the invaded range where it was first detected ~150 years ago. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

5. Testing the function of a colour pattern polymorphism in a lizard.

Author

Matthews, Genevieve and Chapple, David G

Subjects

*LIZARDS, *COLOR, *HABITAT selection, *MATE selection, *PREDATION, *ECOLOGICAL niche, *BODY temperature regulation

Abstract

Trait polymorphisms can vary across different contexts of selection and be maintained through trade-offs between these contexts. For example, colour polymorphic variants may represent alternative strategies optimizing crypsis or thermoregulation in different populations. Here we use visual modelling to test the conspicuousness of different colour pattern morphs in males and females of an Australian lizard, Lampropholis delicata , to predators and conspecifics. We further assess differences in reflectance, microhabitat selection, and mate preference to determine the functional role of the polymorphism and explain its variable distribution across latitude and the sexes. Plain morphs are more conspicuous than striped morphs in both bird and lizard visual models, suggesting predation selection, and habitat structure varies among sex-morph types, but we find no difference in microhabitat selection or mate preference based on colour. We suggest that a combination of spatially varying selection, habitat preference, and context-specific behaviour may be necessary to explain spatial patterns of colour morph frequencies. [ABSTRACT FROM AUTHOR]

Published

2024

6. Climate‐related variation of metabolic rate across the distribution of a broadly tolerant invasive forest pest.

Author

Powers, Sean D., Thompson, Lily M., Parry, Dylan, Grayson, Kristine L., Martinez, Eloy, and Agosta, Salvatore J.

Subjects

*LYMANTRIA dispar, *CLIMATE change adaptation, *BIOLOGICAL invasions, *PHYSIOLOGICAL adaptation, *GEOGRAPHICAL positions

Abstract

Aim: Metabolic rate is a widely studied physiological species trait related to energetics, climate, and geographical distributions. Hypotheses have been proposed to explain variation in metabolic rate, but evidence has been mixed due to the limited sampling scope of intraspecific studies. Successful biological invasions offer a unique opportunity to examine the development of intraspecific physiological variation and how it relates to climate, invasive spread and species range limits. The aim of this study was to determine if metabolic rate variation across the spongy moth invasive range was consistent with a pattern of adaptation to local climate. Location: Northeastern United States of America. Taxon: Lymantria dispar dispar L. (Lepidoptera: Erebidae). Methods: Larvae were sourced from 14 populations across the invasion front and interior of the current L. d. dispar invasive range and were reared at a constant temperature. Routine metabolic rates (RMR) of larvae were assayed at three ecologically relevant temperatures. These data were analysed to determine if there were differences in RMR and temperature sensitivity of RMR among populations. Population‐level variation in RMR was then analysed as a function of local climate and geographical position to test for patterns consistent with local adaptation. Results: Larval RMR showed significant variation among populations across all assay temperatures, but there was no difference in temperature sensitivity (i.e. slope). This variation followed a positive latitudinal cline with RMR increasing from the southern range to the north. This cline also showed a significant relationship with local climate variables. Main Conclusions: Larval metabolic rate variation was consistent with a pattern of adaptation by L. d. dispar to divergent climates across its invasive range. These results indicated that thermal adaptation of whole‐organism physiology may play a key role in promoting species spread and expansion for biological invasions like L. d. dispar. [ABSTRACT FROM AUTHOR]

Published

2024

7. Geographic differences in Blainville's beaked whale (Mesoplodon densirostris) echolocation clicks

Author

Baumann‐Pickering, Simone, Trickey, Jennifer S, Solsona‐Berga, Alba, Rice, Ally, Oleson, Erin M, Hildebrand, John A, and Frasier, Kaitlin E

Subjects

biogeography, Blainville's beaked whale, latitudinal cline, passive acoustic monitoring, population differentiation, species management, Environmental Sciences, Biological Sciences, Ecology

Published

2023

8. Floral colour variation across life history and geography in Mimulus ringens (Phrymaceae).

Author

White, Sarah V and Royer, Anne M

Subjects

*FLOWERING time, *LIFE history theory, *FLOWERING of plants, *HISTORY of geography, *PLANT species, *COLOR, REPRODUCTIVE isolation

Abstract

Floral and life history traits play important roles in plant speciation. The genus Mimulus is a model system for studying speciation. It includes examples of species in which floral colour facilitates isolation through pollinator shifts, as well as life history changes that result in temporal or ecogeographic isolation. We investigate the possibility that both floral colour and life history have shifted together in a recently described, genetically distinct group within the species Mimulus ringens. Using a large, range-wide citizen science dataset, we test for geographic trends in flower colour and flowering time. We combine this with greenhouse studies in populations of known life history to test for differences in flower colour with life history. We show that darker-flowered plants are more common at higher latitudes, that annual-like populations have darker flowers, and that flowering time varies with latitude only in the subset of populations that have lighter flowers. This suggests that annual-like populations (with the earlier flowering time typical of this life history) are restricted to the northern part of the species range and may have distinct trends in flowering date. [ABSTRACT FROM AUTHOR]

Published

2024

9. Geographic variation in body size of the migratory locust Locusta migratoria (Orthoptera, Acrididae): Masaki's cline and phase polyphenism.

Author

SEIJI TANAKA

Subjects

*MIGRATORY locust, *BODY size, *ORTHOPTERA, *GRASSHOPPERS, *LIFE cycles (Biology), *INSECT rearing

Abstract

Adults of the migratory locust Locusta migratoria (Linnaeus, 1758) were collected in the Japanese Archipelago, which extends from the Ryukyu subtropical region to the Hokkaido cool-temperate region, covering more than 2,500 km. A saw-toothed pattern was observed in body size along the latitudinal or annual mean temperature gradient, which is similar to Masaki's clines initially described for crickets. The latitudinal cline of locusts was also observed in the laboratory, suggesting that this cline was primarily due to genetic variation. In the northern univoltine zone, locust body size increased toward the south. The latitudinal size trend was reversed in the transitional zones where the voltinism shifted from univoltine to bivoltine and from bivoltine to trivoltine life cycles. These patterns may be explained by changes in the length of the growing season for development and reproduction. Body size varied with growth efficiency but not with the variable lengths of nymphal development. Larger females had more ovarioles and produced fatter egg pods containing more eggs per pod. The morphometric ratio, F/C (hind femur length/head width), tended to decrease with latitude, but this characteristic could be primarily due to phylogenetic differences between the northern and southern clades. It was confirmed that F/C ratio decreased when the locusts were reared in a group. The sexual size dimorphism, or SSD, tended to increase as the mean body sizes of populations increased, converse to Rensch's rule. The relative body size of females and males correlated with latitude and was greatly reduced when the insects were reared in a group. The smaller rate of increase at higher latitudes may be related to male-female associations and predation pressure. [ABSTRACT FROM AUTHOR]

Published

2024

10. Thermal plasticity in development and diapause strategy in a temperate butterfly across a latitudinal gradient.

Author

Verspagen, Nadja, Ikonen, Suvi, Maes, Dirk, Stefanescu, Constanti, DiLeo, Michelle F., and Saastamoinen, Marjo

Subjects

*DIAPAUSE, *LIFE history theory, *NATURAL selection, *LOW temperatures, *BUTTERFLIES, *BODY size

Abstract

Trade‐offs among traits are central to life‐history theory and often closely linked to an organism's fitness. Understanding how these trade‐offs vary among populations and across environments is therefore important to more accurately predict species' responses to future climate change. However, the extent to which responses vary across populations remains unknown because few studies investigate intraspecific differences.We performed a full‐factorial split‐brood common garden experiment to test how variation in rearing temperature affects developmental timing and other traits important for survival during diapause in the Glanville fritillary butterfly (Melitaea cinxia). Pre‐diapause larvae originating from four regions across a latitudinal cline across Europe were reared at four temperatures (25, 28, 31 and 34°C), and we used a reaction norm approach to test for evidence of genetic differentiation and variation in developmental plasticity across regions.We found clear signs of genetic differentiation in multiple developmental traits, as well as differences in developmental plasticity. Northern larvae entered diapause in the fourth instar when the temperatures were low, whereas southern larvae did so in the fifth instar. As a result, development time is canalized with regards to temperature in northern larvae: due to entering diapause one stage earlier, they develop fast even in the cold, whereas southern larvae always develop slower, especially at low temperatures. As a trade‐off, northern larvae have a lower body mass when reared at cooler temperatures compared to southern larvae, and they show increased plasticity in diapause mass. No clear clinal patterns were found in relative fat content.Our results show that trade‐offs between body size, development time and growth rate can vary within species living across environmental clines, possibly as a consequence of natural selection to local environmental conditions or other genetic constraints. This variation highlights the importance of recognizing the context dependency of relationships between important life‐history traits and their interactions with local environments in predicting species' responses to climate change. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2023

11. Partial reuse of circadian clock genes along parallel clines of diapause in two moth species.

Author

Yu, Yue, Huang, Li‐Li, Xue, Fang‐Sen, and Dopman, Erik B.

Subjects

*CIRCADIAN rhythms, *CLOCK genes, *DIAPAUSE, *MOLECULAR clock, *EUROPEAN corn borer, *SINGLE nucleotide polymorphisms, *GENOMICS

Abstract

Understanding the molecular basis of repeated evolution improves our ability to predict evolution across the tree of life. Only since the last decade has high‐throughput sequencing enabled comparative genome scans to thoroughly examine the repeatability of genetic changes driving repeated phenotypic evolution. The Asian corn borer (ACB), Ostrinia furnacalis (Guenée), and the European corn borer (ECB), Ostrinia nubilalis (Hübner), are two closely related moths displaying repeatable phenological adaptation to a wide range of climates on two separate continents, largely manifesting as changes in the timing of diapause induction and termination across latitude. Candidate genes underlying diapause variation in North American ECB have been previously identified. Here, we sampled seven ACB populations across 23 degrees of latitude in China to elucidate the genetic basis of diapause variation and evolutionary mechanisms driving parallel clinal responses in the two species. Using pooled whole‐genome sequencing (Pool‐seq) data, population genomic analyses revealed hundreds of single nucleotide polymorphisms (SNP) whose allele frequencies covaried with mean diapause phenotypes along the cline. Genes involved in circadian rhythm were over‐represented among candidate genes with strong signatures of spatially varying selection. Only one of two circadian clock genes associated with diapause evolution in ECB showed evidence of reuse in ACB (period [per]), but per alleles were not shared between species nor with their outgroup, implicating independent mutational paths. Nonetheless, evidence of adaptive introgression was discovered at putative diapause loci located elsewhere in the genome, suggesting that de novo mutations and introgression might both underlie the repeated phenological evolution. [ABSTRACT FROM AUTHOR]

Published

2023

12. Unveiling Subtle Geographical Clines: Phenotypic Effects and Dynamics of Circadian Clock Gene Polymorphisms.

Author

Khatib, Loren, Subasi, Bengisu Sezen, Fishman, Bettina, Kapun, Martin, and Tauber, Eran

Subjects

*CIRCADIAN rhythms, *MOLECULAR clock, *CLOCK genes, *GENETIC polymorphisms, *NATURAL selection, *PHENOTYPES, *SINGLE nucleotide polymorphisms

Abstract

Simple Summary: Circadian clocks are molecular pacemakers that drive daily rhythms in physiology, metabolism, and behavior. They are present in a diverse range of organisms, from cyanobacteria to humans. In the last few decades, enormous progress has been made in understanding the molecular details of the circadian clock. The fruit-fly Drosophila has been instrumental in identifying 'clock' genes, which are well conserved in mammals, both in sequence and function. Many 'clock' genes have been identified using laboratory mutagenesis screens, which look for mutants that show aberrant circadian behavior. The recent accumulation of genomic sequences from wild populations of Drosophila provides an opportunity to identify natural genetic variations in 'clock' genes, which serve as molecular adaptations to local habitats. Here, we focused on nine polymorphic sites in genes associated with the clock and tested their impact on diurnal behavior. We found seven sites whose alleles confer different circadian behavior or seasonal response. This analysis of natural variation can provide information about fine-tuning of the clock, and it is essential for understanding the evolution of the circadian system. Our understanding of the gene regulatory network that constitutes the circadian clock has greatly increased in recent decades, notably due to the use of Drosophila as a model system. In contrast, the analysis of natural genetic variation that enables the robust function of the clock under a broad range of environments has developed more slowly. In the current study, we analyzed comprehensive genome sequencing data from wild European populations of Drosophila, which were densely sampled through time and space. We identified hundreds of single nucleotide polymorphisms (SNPs) in nine genes associated with the clock, 276 of which exhibited a latitudinal cline in their allele frequencies. While the effect sizes of these clinal patterns were small, indicating subtle adaptations driven by natural selection, they provided important insights into the genetic dynamics of circadian rhythms in natural populations. We selected nine SNPs in different genes and assessed their impact on circadian and seasonal phenotypes by reconstructing outbred populations fixed for either of the SNP alleles, from inbred DGRP strains. The circadian free-running period of the locomotor activity rhythm was affected by an SNP in doubletime (dbt) and eyes absent (Eya). The SNPs in Clock (Clk), Shaggy (Sgg), period (per), and timeless (tim) affected the acrophase. The alleles of the SNP in Eya conferred different levels of diapause and the chill coma recovery response. [ABSTRACT FROM AUTHOR]

Published

2023

13. Utility of chloroplast DNA haplotype data for ecological restoration using Fagus crenata seedlings in case of incomplete seed source information availability.

Author

Takahashi, Makoto, Goto, Susumu, Fukuda, Yoko, and Watanabe, Atsushi

Subjects

*HAPLOTYPES, *CHLOROPLAST DNA, *RESTORATION ecology, *BEECH, *INFORMATION resources, *SEEDLINGS, *CHLOROPLASTS

Abstract

Forest trees species are often genetically adapted to local environmental conditions. Therefore, local seeds are recommended for ecological restoration. However, seedlings of broad‐leaved tree species, such as Japanese beech (Fagus crenata), are limited in their commercial seedling production in Japan. Thus, long‐distance transfer of seeds and/or seedlings is common. F. crenata's distinct geographical structure is well known; large‐scale seed transfer may increase the risk of genetic disturbance. Several provenance trials of the species revealed that phenotypic traits such as leaf area and bud flush date differed latitudinally and/or between the Pacific Ocean side and the Japan Sea side. We investigated leaf size and bud flush date and identified the chloroplast DNA haplotype of trees planted in two provenance trials established in Hokkaido, Japan. We then examined whether cpDNA haplotype information is useful as a proxy in ecological restoration when using seedlings with incomplete seed source information. This study indicated that suitable seedlings could be selected based on chloroplast DNA haplotype information in F. crenata in the case of incomplete seed source information. [ABSTRACT FROM AUTHOR]

Published

2023

14. Functional Analysis of a Putative Target of Spatially Varying Selection in the Menin1 Gene of Drosophila melanogaster.

Author

Svetec, Nicolas, Saelao, Perot, Cridland, Julie M, Hoffmann, Ary A, and Begun, David J

Subjects

Animals, Animals, Genetically Modified, Drosophila melanogaster, Drosophila Proteins, Genetics, Population, Genomics, Evolution, Molecular, Polymorphism, Single Nucleotide, Genome, United States, Australia, Selection, Genetic, DNA damage, chill coma recovery, latitudinal cline, local adaptation, Genetically Modified, Genetics, Population, Evolution, Molecular, Polymorphism, Single Nucleotide, Selection, Genetic

Abstract

While significant effort has been devoted to investigating the potential influence of spatially varying selection on genomic variation, relatively little effort has been devoted to experimental analysis of putative variants or genes experiencing such selection. Previous population genetic work identified an amino acid polymorphism in the Mnn1 gene as one of the most strongly latitudinally differentiated SNPs in the genome of Drosophila melanogaster in the United States and Australia. Here we report the results of our transgenic analysis of this amino acid polymorphism. Genotypes carrying alternative Mnn1 alleles differed in multiple phenotypes in a direction generally consistent with phenotypic differences previously observed along latitudinal clines. These results support inferences from earlier population genomic work that this variant influences fitness, and support the idea that the alleles exhibiting clines may be likely to have pleiotropic effects that are correlated along the axes favored by natural selection.

Published

2019

15. Drosophila melanogaster microbiome is shaped by strict filtering and neutrality along a latitudinal cline.

Author

Henry, Lucas P. and Ayroles, Julien F.

Subjects

*DROSOPHILA melanogaster, *HOSTS (Biology), *ECOSYSTEM dynamics, *NEUTRALITY, *NEUTRAL density filters, *DROSOPHILIDAE

Abstract

Microbiomes affect many aspects of host biology, but the eco‐evolutionary forces that shape their diversity in natural populations remain poorly understood. Geographical gradients, such as latitudinal clines, generate predictable patterns in biodiversity at macroecological scales, but whether these macroscale processes apply to host–microbiome interactions is an open question. To address this question, we sampled the microbiomes of 13 natural populations of Drosophila melanogaster along a latitudinal cline in the eastern United States. The microbiomes were surprisingly consistent across the cline, as latitude did not predict either alpha or beta diversity. Only a narrow taxonomic range of bacteria were present in all microbiomes, indicating that strict taxonomic filtering by the host and neutral ecological dynamics are the primary factors shaping the fly microbiome. Our findings reveal the complexity of eco‐evolutionary interactions shaping microbial variation in D. melanogaster and highlight the need for additional sampling of the microbiomes in natural populations along environmental gradients. [ABSTRACT FROM AUTHOR]

Published

2022

16. Enhanced lignin synthesis and ecotypic variation in defense‐related gene expression in response to shade in Norway spruce.

Author

Ranade, Sonali Sachin, Seipel, George, Gorzsás, András, and García‐Gil, María Rosario

Subjects

*NORWAY spruce, *GENE expression, *LIGNINS, *PLANT diseases, *PLANT defenses, *PLANT metabolism

Abstract

During the growth season, northern forests in Sweden daily receive more hours of far‐red (FR)‐enriched light or twilight (shade) as compared to southern forests. Norway spruce (shade‐tolerant) are adapted to latitudinal variation in twilight characterized by a northward increase in FR requirement to maintain growth. Shade is a stressful condition that affects plant growth and increases plant's susceptibility to pathogen attack. Lignin plays a central role in plant defense and its metabolism is regulated by light wavelength composition (light quality). In the current work, we studied regulation of lignin synthesis and defense‐related genes (growth‐defense trade‐offs) in response to shade in Norway spruce. In most angiosperms, light promotes lignin synthesis, whereas shade decreases lignin production leading to weaker stem, which may make plants more disease susceptible. In contrast, enhanced lignin synthesis was detected in response to shade in Norway spruce. We detected a higher number of immunity/defense‐related genes up‐regulated in northern populations as compared to south ones in response to shade. Enhanced lignin synthesis coupled with higher defense‐related gene expression can be interpreted as an adaptive strategy for better survival in northern populations. Findings will contribute to ensuring deployment of well‐adapted genetic material and identifying tree families with enhanced disease resistance. Enhanced lignin synthesis was detected in Norway spruce under shade in contrast to angiosperms. Shade also revealed ecotypic variation in defense‐related gene expression in Norway spruce. [ABSTRACT FROM AUTHOR]

Published

2022

17. Unveiling Subtle Geographical Clines: Phenotypic Effects and Dynamics of Circadian Clock Gene Polymorphisms

Author

Loren Khatib, Bengisu Sezen Subasi, Bettina Fishman, Martin Kapun, and Eran Tauber

Subjects

circadian clock, latitudinal cline, molecular polymorphism, adaptation, Biology (General), QH301-705.5

Abstract

Our understanding of the gene regulatory network that constitutes the circadian clock has greatly increased in recent decades, notably due to the use of Drosophila as a model system. In contrast, the analysis of natural genetic variation that enables the robust function of the clock under a broad range of environments has developed more slowly. In the current study, we analyzed comprehensive genome sequencing data from wild European populations of Drosophila, which were densely sampled through time and space. We identified hundreds of single nucleotide polymorphisms (SNPs) in nine genes associated with the clock, 276 of which exhibited a latitudinal cline in their allele frequencies. While the effect sizes of these clinal patterns were small, indicating subtle adaptations driven by natural selection, they provided important insights into the genetic dynamics of circadian rhythms in natural populations. We selected nine SNPs in different genes and assessed their impact on circadian and seasonal phenotypes by reconstructing outbred populations fixed for either of the SNP alleles, from inbred DGRP strains. The circadian free-running period of the locomotor activity rhythm was affected by an SNP in doubletime (dbt) and eyes absent (Eya). The SNPs in Clock (Clk), Shaggy (Sgg), period (per), and timeless (tim) affected the acrophase. The alleles of the SNP in Eya conferred different levels of diapause and the chill coma recovery response.

Published

2023

18. Provenance‐by‐environment interaction of reproductive traits in the invasion of Spartina alterniflora in China

Author

Liu, Wenwen, Strong, Donald R, Pennings, Steven C, and Zhang, Yihui

Subjects

Environmental Sciences, Biological Sciences, Ecology, Life on Land, Acclimatization, China, Gene-Environment Interaction, Phenotype, Poaceae, biological invasion, genetic differentiation, latitudinal cline, pre-adaptation, provenance-by-environment interaction, recruitment, sexual reproduction, Spartina alterniflora, Spartina alterniflora, Ecological Applications, Evolutionary Biology, Zoology, Ecological applications

Abstract

Ecological invasions are facilitated by pre-adaptation and phenotypic plasticity, upon which evolution can act. The rapid invasion of the intertidal grass Spartina alterniflora in China during the last 36 yr is a test case for the roles of these mechanisms. A previous study of S. alterniflora in China found strong latitudinal clines in vegetative and sexual traits and concluded that most of this variation was due to phenotypic plasticity. Recent observations suggested provenance-by-environment interactions, and we employed common gardens at multiple latitudes as a test of this idea. Phenotypically, field plant height, which correlates strongly with biomass and other indices of vegetative performance in this species, showed a hump-shaped relationship across 10 sites, covering 19° of latitude; field seed set increased linearly with latitude. To assess the role of plasticity vs. genetic differentiation in these patterns, we grew plants from the ten field sites in three common gardens at low (20.9° N), mid (28.3° N), and high (38.0° N) latitudes to maturity, at 18 months. Plant height varied among common gardens, with the tallest plants at mid latitude, mirroring the field pattern, consistent with the previous study. Within the gardens, latitude of origin also affected plant height. Seed set varied among the gardens, with the greatest values at high latitudes, again mirroring the field pattern and indicating substantial plasticity. Evidence of evolution was found as increasing seed set with latitude among provenances within common gardens. However, the effect differed among common gardens, with the greatest slope in the high-latitude garden, lower slope in the mid-latitude garden, and no relationship in the low-latitude garden, indicating a provenance-by-environment interaction. The number of surviving plants also suggested a provenance-by-environment interaction; no relationship with latitude among provenances in the two southern gardens and increasing survival with latitude in the northern garden. Field seedling density was ~200-fold greater at high than at low latitude sites. The profuse seed germination and recruitment in the north could have created high selection intensity resulting in evolution of reproductive traits at high latitudes with the result that the mechanisms of the invasion differ with latitude.

Published

2017

19. Strong population differentiation in lingcod (Ophiodon elongatus) is driven by a small portion of the genome

Author

Gary C. Longo, Laurel Lam, Bonnie Basnett, Jameal Samhouri, Scott Hamilton, Kelly Andrews, Greg Williams, Giles Goetz, Michelle McClure, and Krista M. Nichols

Subjects

fisheries management, heterogeneous genomic divergence, latitudinal cline, Northeast Pacific Ocean, population genomics, RAD sequencing, Evolution, QH359-425

Abstract

Abstract Delimiting intraspecific genetic variation in harvested species is crucial to the assessment of population status for natural resource management and conservation purposes. Here, we evaluated genetic population structure in lingcod (Ophiodon elongatus), a commercially and recreationally important fishery species along the west coast of North America. We used 16,749 restriction site‐associated DNA sequencing (RADseq) markers, in 611 individuals collected from across the bulk of the species range from Southeast Alaska to Baja California, Mexico. In contrast to previous population genetic work on this species, we found strong evidence for two distinct genetic clusters. These groups separated latitudinally with a break near Point Reyes off Northern California, and there was a high frequency of admixed individuals in close proximity to the break. F‐statistics corroborate this genetic break between northern and southern sampling sites, although most loci are characterized by low FST values, suggesting high gene flow throughout most of the genome. Outlier analyses identified 182 loci putatively under divergent selection, most of which mapped to a single genomic region. When individuals were grouped by cluster assignment (northern, southern, and admixed), 71 loci were fixed between the northern and southern cluster, all of which were identified in the outlier scans. All individuals identified as admixed exhibited near 50:50 assignment to northern and southern clusters and were heterozygous for most fixed loci. Alignments of RADseq loci to a draft lingcod genome assembly and three other teleost genomes with chromosome‐level assemblies suggest that outlier and fixed loci are concentrated on a single chromosome. Similar genomic patterns have been attributed to chromosomal inversions in diverse taxonomic groups. Regardless of the evolutionary mechanism, these results represent novel observations of genetic structure in lingcod and designate clear evolutionary units that could be used to inform fisheries management.

Published

2020

20. Evidence that natural selection maintains genetic variation for sleep in Drosophila melanogaster

Author

Svetec, Nicolas, Zhao, Li, Saelao, Perot, Chiu, Joanna C, and Begun, David J

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Biotechnology, Human Genome, Sleep Research, Acclimatization, Animals, Climate, Drosophila melanogaster, Female, Geography, Male, Models, Animal, Panama, Selection, Genetic, Sleep, Transcriptome, United States, Latitudinal cline, Spatially varying selection, Locomotor activity, Circadian rhythms, Gene expression, RNA-seq

Abstract

BackgroundDrosophila melanogaster often shows correlations between latitude and phenotypic or genetic variation on different continents, which suggests local adaptation with respect to a heterogeneous environment. Previous phenotypic analyses of latitudinal clines have investigated mainly physiological, morphological, or life-history traits. Here, we studied latitudinal variation in sleep in D. melanogaster populations from North and Central America. In parallel, we used RNA-seq to identify interpopulation gene expression differences.ResultsWe found that in D. melanogaster the average nighttime sleep bout duration exhibits a latitudinal cline such that sleep bouts of equatorial populations are roughly twice as long as those of temperate populations. Interestingly, this pattern of latitudinal variation is not observed for any daytime measure of activity or sleep. We also found evidence for geographic variation for sunrise anticipation. Our RNA-seq experiment carried out on heads from a low and high latitude population identified a large number of gene expression differences, most of which were time dependent. Differentially expressed genes were enriched in circadian regulated genes and enriched in genes potentially under spatially varying selection.ConclusionOur results are consistent with a mechanistic and selective decoupling of nighttime and daytime activity. Furthermore, the present study suggests that natural selection plays a major role in generating transcriptomic variation associated with circadian behaviors. Finally, we identified genomic variants plausibly causally associated with the observed behavioral and transcriptomic variation.

Published

2015

21. A latitudinal cline in a courtship song character of Drosophila melanogaster.

Author

Stanley, Rosamund A. and Kyriacou, Charalambos P.

Subjects

*DROSOPHILA melanogaster, *COURTSHIP, *BODY size, *SEXUAL selection, *SONGS, *BIRDSONGS, *INSECT flight

Abstract

The courtship song of male Drosophila melanogaster is generated by wing vibration and contains an interpulse interval (IPI) which is species-specific and usually falls in the mean range of 30–40 ms. The IPI is extremely temperature-sensitive, so we wondered whether flies collected along the eastern coast of Australia between latitudes 16.9°S and 42.9°S might have adapted to the different thermal conditions and show differences in mean IPI. We observe a significant correlation between IPI and latitude in addition to the well-known association between latitude and body size (Bergmannn's Rule). However, somewhat surprisingly we could not detect a significant association between body size and IPI. We also examined flies collected from the North and South-facing slopes of 'Evolution Canyon' in Israel and observed differences in IPI that support the view that thermal adaptation can shape this important song character. We also examined the songs of flies from Kenya and observed no correlation between altitude of collection and IPI. In all three experiments, body size did not correlate with IPI. A global analysis of all three sets of populations on three continents revealed a strong association between IPI and latitude. We speculate that IPI is shaped by thermal and sexual selection whereas body size is also shaped by natural selection. [ABSTRACT FROM AUTHOR]

Published

2021

22. Temporal trends in geographic clines of chum salmon reproductive traits associated with global warming and hatchery programmes

Author

Koh Hasegawa, Yasutaka Okamoto, and Kentaro Morita

Subjects

climate change, domestication selection, egg size, fecundity, gonad, latitudinal cline, Environmental sciences, GE1-350, Ecology, QH540-549.5

Abstract

Abstract Geographic clines in life‐history traits are often recognized as adaptations to the associated transitional environments. As life‐history traits evolve in response to anthropogenic processes, these geographic clines can change over time. The geographic and temporal trends of reproductive traits in Japanese chum salmon Oncorhynchus keta were analysed. Data were collected from 23 rivers located between 36° and 45° north latitude and 136° and 146° east longitude from 1994 to 2010. We confirmed the geographic clines of reproductive traits: relative gonad weight increased in more northeasterly locations, and females had fewer, but larger, eggs in more northeasterly locations after standardization by body size. The geographic clines changed over the years. The northeastward geographic trend of increasing gonad weight became more pronounced over time. Temporal trends towards smaller but more numerous eggs were evident, especially in northeasterly locations. Under natural and sexual selection, gonadal investment should be constrained by the energetic demands of the cost of migration, particularly in southwesterly locations (which are farthest from the feeding grounds), and by breeding competition during natural reproduction. In addition, females should have fewer but larger eggs owing to a constraint on growth opportunities for their offspring in more northeasterly regions of Japan, which are colder and have less available food. However, global warming may mitigate this constraint on growth opportunities in northeastern Japan by increasing river water temperatures. Moreover, we consider that relaxation of the effects of natural and sexual selection on intense breeding competition and early growth conditions has occurred through domestication selection by hatchery programmes. These may have caused temporal shifts in geographic clines. We should consider several co‐occurring anthropogenic impacts on natural and sexual selection when evaluating the life‐history traits of organisms. For the sustainable use of biological resources, maintaining geographically adapted life‐history traits during adaptation to climate change is essential. Therefore, the conservation of wild salmon populations formed by natural selection is preferable to the stocking of hatchery‐reared fry.

Published

2021

23. Functional Analysis of a Putative Target of Spatially Varying Selection in the Menin1 Gene of Drosophila melanogaster

Author

Nicolas Svetec, Perot Saelao, Julie M. Cridland, Ary A. Hoffmann, and David J. Begun

Subjects

DNA damage, chill coma recovery, local adaptation, latitudinal cline, Genetics, QH426-470

Abstract

While significant effort has been devoted to investigating the potential influence of spatially varying selection on genomic variation, relatively little effort has been devoted to experimental analysis of putative variants or genes experiencing such selection. Previous population genetic work identified an amino acid polymorphism in the Mnn1 gene as one of the most strongly latitudinally differentiated SNPs in the genome of Drosophila melanogaster in the United States and Australia. Here we report the results of our transgenic analysis of this amino acid polymorphism. Genotypes carrying alternative Mnn1 alleles differed in multiple phenotypes in a direction generally consistent with phenotypic differences previously observed along latitudinal clines. These results support inferences from earlier population genomic work that this variant influences fitness, and support the idea that the alleles exhibiting clines may be likely to have pleiotropic effects that are correlated along the axes favored by natural selection.

Published

2019

24. Molecular signatures of local adaptation to light in Norway spruce.

Author

Ranade, Sonali Sachin and García-Gil, María Rosario

Abstract

Main conclusion: Transcriptomic and exome capture analysis reveal an adaptive cline for shade tolerance in Norway spruce. Genes involved in the lignin pathway and immunity seem to play a potential role in contributing towards local adaptation to light. The study of natural variation is an efficient method to elucidate how plants adapt to local climatic conditions, a key process for the evolution of a species. Norway spruce is a shade-tolerant conifer in which the requirement of far-red light for growth increases latitudinally northwards. The objective of the study is to characterize the genetic control of local adaptation to light enriched in far-red in Norway spruce, motivated by a latitudinal gradient for the Red:Far-red (R:FR) ratio to which Norway spruce has been proven to be genetically adapted. We have established the genomic signatures of local adaptation by conducting transcriptomic (total RNA-sequencing) and genomic analyses (exome capture), for the identification of genes differentially regulated along the cline. RNA-sequencing revealed 274 differentially expressed genes in response to SHADE (low R:FR light), between the southern and northern natural populations in Sweden. Exome capture included analysis of a uniquely large data set (1654 trees) that revealed missense variations in coding regions of nine differentially expressed candidate genes, which followed a latitudinal cline in allele and genotype frequencies. These genes included five transcription factors involved in vital processes like bud-set/bud-flush, lignin pathway, and cold acclimation and other genes that take part in cell-wall remodeling, secondary cell-wall thickening, response to starvation, and immunity. Based on these results, we suggest that the northern populations might not only be able to adjust their growing season in response to low R:FR light, but they may also be better adapted towards disease resistance by up-regulation of the lignin pathway that is linked to immunity. This forms a concrete basis for local adaptation to light quality in Norway spruce, one of the most economically important conifer tree species in Sweden. [ABSTRACT FROM AUTHOR]

Published

2021

25. Geographical continuity and discontinuity in the meristic characteristics of ayus of the southern subspecies Plecoglossus altivelis ryukyuensis.

Author

Ha, Linh Manh and Iguchi, Kei'ichiro

Subjects

*SUBSPECIES, *CONTINUITY

Abstract

Two subspecies of ayu, Plecoglossus altivelis altivelis (nominotypical subspecies) and P. a. ryukyuensis (Ryukyu-ayu), differ morphologically, behaviorally, and genetically. Specimens from nine populations comprising both subspecies were investigated to examine whether their meristic characteristics follow a widely observed geographical tendency known as Jordan's rule. Seven out of the eleven characteristics increased in frequency with latitude, following Jordan's rule. Contrarily to the expectation from Jordan's rule, however, Ryukyu-ayu had more anal fin rays than nominotypical subspecies in the temperate zone, suggesting genetic divergence underlying this characteristic between these two subspecies. The two subtropical populations showed a reversal of the geographic cline in the number of scales and dorsal fin rays, indicating these do not share a gene pool. The present study, without using genetic indicator, remains disputable to consider genetic status within Ryukyu-ayu further. [ABSTRACT FROM AUTHOR]

Published

2021

26. Strong population differentiation in lingcod (Ophiodon elongatus) is driven by a small portion of the genome.

Author

Longo, Gary C., Lam, Laurel, Basnett, Bonnie, Samhouri, Jameal, Hamilton, Scott, Andrews, Kelly, Williams, Greg, Goetz, Giles, McClure, Michelle, and Nichols, Krista M.

Subjects

*POPULATION differentiation, *CONSERVATION of natural resources, *NATURAL resources management, *CHROMOSOME inversions, *FISHERY management, *GENE flow

Abstract

Delimiting intraspecific genetic variation in harvested species is crucial to the assessment of population status for natural resource management and conservation purposes. Here, we evaluated genetic population structure in lingcod (Ophiodon elongatus), a commercially and recreationally important fishery species along the west coast of North America. We used 16,749 restriction site‐associated DNA sequencing (RADseq) markers, in 611 individuals collected from across the bulk of the species range from Southeast Alaska to Baja California, Mexico. In contrast to previous population genetic work on this species, we found strong evidence for two distinct genetic clusters. These groups separated latitudinally with a break near Point Reyes off Northern California, and there was a high frequency of admixed individuals in close proximity to the break. F‐statistics corroborate this genetic break between northern and southern sampling sites, although most loci are characterized by low FST values, suggesting high gene flow throughout most of the genome. Outlier analyses identified 182 loci putatively under divergent selection, most of which mapped to a single genomic region. When individuals were grouped by cluster assignment (northern, southern, and admixed), 71 loci were fixed between the northern and southern cluster, all of which were identified in the outlier scans. All individuals identified as admixed exhibited near 50:50 assignment to northern and southern clusters and were heterozygous for most fixed loci. Alignments of RADseq loci to a draft lingcod genome assembly and three other teleost genomes with chromosome‐level assemblies suggest that outlier and fixed loci are concentrated on a single chromosome. Similar genomic patterns have been attributed to chromosomal inversions in diverse taxonomic groups. Regardless of the evolutionary mechanism, these results represent novel observations of genetic structure in lingcod and designate clear evolutionary units that could be used to inform fisheries management. [ABSTRACT FROM AUTHOR]

Published

2020

27. Age, growth, and gonadal condition of the Giant mottled eel, Anguilla marmorata, in Okinawa-Jima Island, Japan.

Author

Kita, Tomohiro and Tachihara, Katsunori

Subjects

ANGUILLA anguilla, OTOLITHS, AMERICAN eel, EELS, GONADS, WATER temperature, ISLANDS

Abstract

Age, growth, and gonadal condition of the Giant mottled eel, Anguilla marmorata, were estimated from 303 specimens collected at Okinawa-jima Island, Japan. Otolith opaque zones that formed every year correlated with high water temperature and were thought to be annual rings. The growth of this species differed between males and females, and females were longer lived and larger than males. The mean gonadosomatic index (GSI) and the appearance of silver eels showed no clear seasonality. Comparing life history characteristics of this species between natural (northern specimens) and urban rivers (southern specimens), the growth of southern specimens was faster than that of the northern specimens, leading to the development of gonads and their downstream migration at younger ages. Therefore, we conclude that the life history characteristics of A. marmorata strongly influence by the river environments. [ABSTRACT FROM AUTHOR]

Published

2020

28. Idea paper: Airport ecology, an environment without predation pressure drives evolution.

Author

Hayashi, Ryota and Tsurui‐Sato, Kaori

Subjects

*BIOLOGICAL evolution, *BIRDS of prey, *ECOLOGY, *PREDATION, *AIRPORTS, *BIRD populations, *NATURAL selection

Abstract

Evolutionary changes in organisms are directly observable, and they can occur rapidly in the presence of strong natural selection. Here, we present the "airport ecology" to describe the rapid evolution of animals. The pygmy grasshopper Tetrix japonica exhibits significant variations in pronotum color and markings and is a good model organism for "airport ecology." There are trade‐offs in black‐spot markings in the pygmy grasshoppers; although it helps in camouflaging and reducing predation pressure, it stimulates overheating, resulting in a reduction in mating opportunities and foraging success under high solar irradiance. Therefore, the frequency of black‐spotted morphs is lower at lower latitudes than at higher latitudes along a latitudinal cline. However, in an airport where predation pressure is reduced by the removal of predatory bird populations, we predict that the frequency of black‐spotted morphs of T. japonica will be lower in habitats without predators than in those with predators at the same latitude; this demonstrates the anthropogenic effect on T. japonica polymorphism. As suggested here, predator‐free environments such as airports are valuable for illustrating the effects of anthropogenic activity on animal evolution. These findings can be extended to several other species that are found around airports and are potentially preferred by avian predators in terms of not only rapid evolution of color polymorphism but also evolution of various life‐history traits. [ABSTRACT FROM AUTHOR]

Published

2020

29. A comparison of latitudinal species diversity patterns between riverine and terrestrial earthworms from the North American temperate zone.

Author

Ikeda, Hiroshi, Callaham, Mac A., Shefferson, Richard P., Wenk, Evelyn S., and Fragoso, Carlos

Subjects

*SPECIES diversity, *VERMICOMPOSTING, *BIOGEOGRAPHY, *LATITUDE, *EARTHWORMS, *MARINE biodiversity, *MARINE ecology, *AQUATIC biodiversity

Abstract

Aim: Latitudinal clines of species diversity are widely documented in terrestrial and marine ecosystems. However, the processes governing species diversity gradients in riverine ecosystems have not been well‐studied. We addressed this issue by comparing species diversity between riverine aquatic and terrestrial earthworm groups (genus Sparganophilus and Diplocardia, respectively). Location: North American temperate zone. Taxon: Sparganophilus and Diplocardia. Methods: We collected 556 Sparganophilus earthworms from 64 sites spanning 27 degrees of latitude (18.77°–45.90°N), and 165 Diplocardia earthworms from 23 sites (21 degrees, 19.77°–41.20°N). We split potential species from the phylogenetic trees based on four genes and compared the latitudinal pattern of species diversity between these two groups. Results: We estimated the number of potential species to be 10 for Sparganophilus and 8 for Diplocardia, respectively, from 526 haplotypes (403 in Sparganophilus and 123 in Diplocardia). Sparganophilus species diversity was higher at mid‐latitudes (32° to 40°) due to a preponderance of species with limited geographical distributions, whereas all specimens collected north of 40° belonged to broadly distributed species. Species with limited geographical distributions were more often collected at higher elevations than broadly distributed species in Sparganophilus. For Diplocardia, species diversity was higher at lower latitudes (28° to 32°). Main Conclusions: These results suggest that, in Sparganophilus, species composition at higher latitudes above 40° is derived from range expansion by broadly distributed species from lower latitudes. The high elevation area in the native distribution range of Sparganophilus is limited to the Appalachian Mountains, which ranges above 33° in latitude. The high species diversity of Sparganophilus with limited distributions at mid‐latitude (32°–40°) suggests that the headwater regions at the Appalachian Mountains are sites for more frequent speciation. [ABSTRACT FROM AUTHOR]

Published

2020

30. Unveiling Subtle Geographical Clines: Phenotypic Effects and Dynamics of Circadian Clock Gene Polymorphisms

Author

Tauber, Loren Khatib, Bengisu Sezen Subasi, Bettina Fishman, Martin Kapun, and Eran

Subjects

circadian clock, latitudinal cline, molecular polymorphism, adaptation

Abstract

Our understanding of the gene regulatory network that constitutes the circadian clock has greatly increased in recent decades, notably due to the use of Drosophila as a model system. In contrast, the analysis of natural genetic variation that enables the robust function of the clock under a broad range of environments has developed more slowly. In the current study, we analyzed comprehensive genome sequencing data from wild European populations of Drosophila, which were densely sampled through time and space. We identified hundreds of single nucleotide polymorphisms (SNPs) in nine genes associated with the clock, 276 of which exhibited a latitudinal cline in their allele frequencies. While the effect sizes of these clinal patterns were small, indicating subtle adaptations driven by natural selection, they provided important insights into the genetic dynamics of circadian rhythms in natural populations. We selected nine SNPs in different genes and assessed their impact on circadian and seasonal phenotypes by reconstructing outbred populations fixed for either of the SNP alleles, from inbred DGRP strains. The circadian free-running period of the locomotor activity rhythm was affected by an SNP in doubletime (dbt) and eyes absent (Eya). The SNPs in Clock (Clk), Shaggy (Sgg), period (per), and timeless (tim) affected the acrophase. The alleles of the SNP in Eya conferred different levels of diapause and the chill coma recovery response.

Published

2023

31. Enhanced lignin synthesis and ecotypic variation in defense‐related gene expression in response to shade in Norway spruce

Author

Sonali Sachin Ranade, George Seipel, András Gorzsás, and María Rosario García‐Gil

Subjects

Ecotype, disease resistance, Light, Physiology, Forest Science, conifer, Botany, far-red light, Gene Expression, RNA sequencing, FR ratio [R], Botanik, Plant Science, immunity, Lignin, red light, latitudinal cline, light quality, Picea, local adaptation

Abstract

During the growth season, northern forests in Sweden daily receive more hours of far-red (FR)-enriched light or twilight (shade) as compared to southern forests. Norway spruce (shade-tolerant) are adapted to latitudinal variation in twilight characterized by a northward increase in FR requirement to maintain growth. Shade is a stressful condition that affects plant growth and increases plant's susceptibility to pathogen attack. Lignin plays a central role in plant defense and its metabolism is regulated by light wavelength composition (light quality). In the current work, we studied regulation of lignin synthesis and defense-related genes (growth-defense trade-offs) in response to shade in Norway spruce. In most angiosperms, light promotes lignin synthesis, whereas shade decreases lignin production leading to weaker stem, which may make plants more disease susceptible. In contrast, enhanced lignin synthesis was detected in response to shade in Norway spruce. We detected a higher number of immunity/defense-related genes up-regulated in northern populations as compared to south ones in response to shade. Enhanced lignin synthesis coupled with higher defense-related gene expression can be interpreted as an adaptive strategy for better survival in northern populations. Findings will contribute to ensuring deployment of well-adapted genetic material and identifying tree families with enhanced disease resistance.

Published

2022

32. Taxonomy and Biogeography of Washingtonia (Arecaceae) in Peninsular California

Author

Villanueva Almanza, Lorena

Subjects

Plant sciences, Ecology, Systematic biology, Arecaceae, Genotyping by Sequencing, Kofa, latitudinal cline, stem diameter, Washingtonia

Abstract

\textit{Washingtonia} is an American genus of palms currently composed of two species, \textit{W. filifera} and \textit{W. robusta}. Poor understanding of their morphology and distribution led initially to the description of numerous new species and later, to a simplification resulting in the current understanding of the genus. This widely distributed group of palms native to the Baja California peninsula, southern California, Sonora, and Arizona has been a taxonomic challenge due to a lack in type specimens, incomplete protologues, highly variable vegetative morphology, human dispersal, limited fieldwork in native populations, and poor representation in herbaria. In the wild, both distinct forms occur in the extremes of a 1300-km gradient, linked by morphological intermediates, suggesting that there is continuous morphological variation of the two forms instead of the long-held idea of two species. We addressed this hypothesis by taking measurements of morphological traits of stems and functional traits of leaves in 17 sites spanning the whole distribution range of the genus in Mexico and the US. We examined the relationship between the plants’ traits and latitude, individually, and between all traits combined (using a Principal Component Analysis) and latitude. We compared a linear model against a non-linear model to test whether traits of \textit{Washingtonia} change gradually along the latitudinal gradient or if there are clear geographical breaks among populations. We also used Genotyping By Sequencing (GBS) data to understand population structure and delimit species. Using both a \textit{de novo} and reference based approaches, we analyzed 173 \textit{Washingtonia} individuals from 21 populations across its distribution range through multivariate and Bayesian methods.We found strong statistical support for the hypothesis that there is a gradual change in the vegetative morphological traits of \textit{Washingtonia} along the latitudinal gradient of Peninsular California, instead of two clear morphologically distinguishable species with a hybrid zone. However, we also found that \textit{Washingtoni}a populations are highly structured with four major geographic regions having unique genotypes. Based on previous morphological results and the evidence herein we propose recognizing a single species of \textit{Washingtonia} with four subspecies. Our findings suggest \textit{Washingtonia} is composed of one highly variable species and that local differentiation of populations is related to environmental gradients. Our results provide a robust phylogenetic analysis of \textit{Washingtonia} settling a taxonomic debate that has lasted over a century.

Published

2019

33. Re-establishment of latitudinal clines and local adaptation within the invaded area suggest rapid evolution of seed traits in Argentinean sunflower (Helianthus annuus L.).

Author

Hernández, Fernando, Poverene, Mónica, Garayalde, Antonio, and Presotto, Alejandro

Abstract

Invasive plants represent a valuable model system for studying contemporary evolution and predicting evolutionary responses to global climate change. Rapid adaptation to climate during range expansion has been recently recognised as a major factor in biological invasions. In this study, by using complementary approaches (common garden studies and the presence of parallel geographic clines), we tested for rapid, adaptive evolution of seed traits in wild sunflower (Helianthus annuus L.). Seeds from 22 wild sunflower populations from native (North America) and invasive (Argentina and Australia) groups were grown in a common garden for 2 years (experiments) and used for evaluating genetic differences in seed traits. Seed germination at two times after harvest, seed mass, and size (length and width) were recorded. In addition, 25 climatic variables were used to characterize the local environment of each population and to evaluate the geographic variation in the traits. Seeds from the invasive group showed larger mass and size and higher germination (lower seed dormancy) than seeds from the native group. Latitudinal cline explained most of the group variation in seed dormancy, but not in seed mass or size. Invasive sunflower from Argentina (but not from Australia) re-established the latitudinal cline observed in the native group. We provide evidence that support rapid, adaptive evolution (< 70 years) of seed dormancy in the invasive Argentinean sunflower in response to warmer environments found in Argentina, suggesting that crop wild relatives can quickly evolve in response to novel abiotic conditions. [ABSTRACT FROM AUTHOR]

Published

2019

34. Distinct Physiological Mechanisms Induce Latitudinal and Sexual Differences in the Photoperiodic Induction of Diapause in a Fly.

Author

Yamaguchi, Koki and Goto, Shin G.

Abstract

Many temperate insects enter diapause (dormancy) for overwintering in response to short days (long nights). A latitudinal cline in the critical day lengths for the photoperiodic induction of diapause has been reported in various insect species. However, the physiological mechanisms underlying this cline have remained elusive. We approached this issue in the flesh fly Sarcophaga similis, in which the photoperiodic time measurement system meets the "external coincidence model." In this model, measuring day lengths depends on whether the photoinducible phase (φi), determined by a circadian clock, is exposed to light or not. First, we detected a clear latitudinal cline in the critical day lengths of flies collected from 4 localities at different latitudes. The phase positions of the φi, which can be verified by night interruption photoperiods, also showed a clear latitudinal cline. This result supports the hypothesis that the latitudinal cline in the critical day length is produced by the difference in the phase positions of the φi among different strains. A sexual difference in the critical day length for photoperiodic induction has also been detected in various species. In this study, a sexual difference in the critical day length was observed in the southern strains but there was no sexual difference in the phase positions of the φi. This result indicates that both sexes measure photoperiods in the same manner. Males are less sensitive than females to the light pulse given at the φi, suggesting a quantitative difference in the photoperiodic time measurement and counter systems. This study clearly reveals that distinct mechanisms induce latitudinal and sexual differences in the critical day length for the photoperiodic induction of diapause in a fly. [ABSTRACT FROM AUTHOR]

Published

2019

35. Latitudinal variation and coevolutionary diversification of sexually dimorphic traits in the false blister beetle Oedemera sexualis.

Author

Satomi, Daisuke, Koshio, Chiharu, Tatsuta, Haruki, Kudo, Shin‐ichi, and Takami, Yasuoki

Subjects

*HINDLIMB, *FEMUR, *BODY size, *MULTIPLE correspondence analysis (Statistics), *MORPHOMETRICS, *BEETLES

Abstract

Sexual traits are subject to evolutionary forces that maximize reproductive benefits and minimize survival costs, both of which can depend on environmental conditions. Latitude explains substantial variation in environmental conditions. However, little is known about the relationship between sexual trait variation and latitude, although body size often correlates with latitude. We examined latitudinal variation in male and female sexual traits in 22 populations of the false blister beetle Oedemera sexualis in the Japanese Archipelago. Males possess massive hind legs that function as a female‐grasping apparatus, while females possess slender hind legs that are used to dislodge mounting males. Morphometric analyses revealed that male and female body size (elytron length), length and width of the hind femur and tibia, and allometric slopes of these four hind leg dimensions differed significantly among populations. Of these, three traits showed latitudinal variation, namely, male hind femur was stouter; female hind tibia was slenderer, and female body was smaller at lower latitudes than at higher latitudes. Hind leg sizes and shapes, as measured by principal component analysis of these four hind leg dimensions in each sex, covaried significantly between sexes, suggesting coevolutionary diversification in sexual traits. Covariation between sexes was weaker when variation in these traits with latitude was removed. These results suggest that coevolutionary diversification between male and female sexual traits is mediated by environmental conditions that vary with latitude. [ABSTRACT FROM AUTHOR]

Published

2019

36. Genetic-based signatures of the latitudinal differences in chronotype.

Author

Putilov, Arcady A., Dorokhov, Vladimir B., Puchkova, Alexandra N., Arsenyev, Gleb N., and Sveshnikov, Dmitry S.

Subjects

*MORNINGNESS-Eveningness Questionnaire, *CIRCADIAN rhythms, *NON-coding DNA, *CLOCK genes, *NEANDERTHALS, *GENOMES, *GENE frequency

Abstract

The natural cycles of night and day, and their length, remain stable in near-equatorial African regions but they vary with latitude and season in Eurasia. This new environmental factor might shape the adaptation of circadian rhythms of Eurasians after the out-of-African dispersal of their African ancestors. To identify the genetic-based signatures of this adaptation, geographic variation in allele frequencies of more than 2300 genetic variants was analyzed using data from 5 African and 11 Eurasian populations of the 1000 Genomes Project. The genetic signatures of latitude-dependent polygenic selection were found more frequently within non-coding DNA regions associated with morningness-eveningness in genome-wide association studies (GWASs) than among polymorphisms hinted by GWASs of other traits/diseases and among polymorphisms sampled from pseudogenes and from protein-coding regions in either circadian clock genes or reference genes. Some of such variants were located within the introgressions of the Neanderthal's genome into the genomes of Eurasians. [ABSTRACT FROM AUTHOR]

Published

2019

37. Modeling the flowering sensitivity of five accessions of wild soybean (Glycine soja) to temperature and photoperiod, and its latitudinal cline.

Author

Kentaro Ohigashi, Aki Mizuguti, Keiko Nakatani, Yasuyuki Yoshimura, and Kazuhito Matsuo

Subjects

*GLYCINE, *WILD flowers, *HIGH temperatures, *TEMPERATURE, *SOYBEAN

Abstract

The introgression from genetically modified soybean (Glycine max (L)) to wild soybean (Glycine soja Sieb. et Zucc.) could be threat the genetic diversity of wild soybean. Flowering synchrony is essential to the occurrence of outcrossing, but the flowering phenology of wild soybean is less well researched than that of cultivated soybean. We developed models to predict flowering initiation of wild soybean, based on the flowering initiation dates of wild soybean five accessions from different latitudes (31,4°N to 42.6°N) in growth chambers in which temperature and day length varied. Our proposed models predicted the flowering initiation date of wild soybean in the natural habitat well; the averaged difference from observed date in 5 areas was -1.8 days (-8 to +5). In the long day condition, there was a clear latitudinal cline of photoperiodic sensitivity throughout Japan. Accessions in southern part of Japan archipelago required higher temperature even under the short-day conditions and northern accessions were less-sensitive to long-day conditions. Our result showed the possibility of predicting the flowering initiation of wild soybean, corresponding to latitudes. [ABSTRACT FROM AUTHOR]

Published

2019

38. Presence of an invasive species reverses latitudinal clines of multiple traits in a native species.

Author

Thawley, Christopher J., Goldy‐Brown, Mark, McCormick, Gail L., Graham, Sean P., and Langkilde, Tracy

Subjects

*INTRODUCED species, *GLOBAL environmental change, *ABIOTIC environment, *ANTIPREDATOR behavior, *SCELOPORUS undulatus

Abstract

Understanding the processes driving formation and maintenance of latitudinal clines has become increasingly important in light of accelerating global change. Many studies have focused on the role of abiotic factors, especially temperature, in generating clines, but biotic factors, including the introduction of non‐native species, may also drive clinal variation. We assessed the impact of invasion by predatory fire ants on latitudinal clines in multiple fitness‐relevant traits—morphology, physiological stress responsiveness, and antipredator behavior—in a native fence lizard. In areas invaded by fire ants, a latitudinal cline in morphology is opposite both the cline found in museum specimens from historical populations across the species' full latitudinal range and that found in current populations uninvaded by fire ants. Similarly, clines in stress‐relevant hormone response to a stressor and in antipredator behavior differ significantly between the portions of the fence lizard range invaded and uninvaded by fire ants. Changes in these traits within fire ant‐invaded areas are adaptive and together support increased and more effective antipredator behavior that allows escape from attacks by this invasive predator. However, these changes may mismatch lizards to the environments under which they historically evolved. This research shows that novel biotic pressures can alter latitudinal clines in multiple traits within a single species on ecological timescales. As global change intensifies, a greater understanding of novel abiotic and biotic pressures and how affected organisms adapt to them across space and time will be central to predicting and managing our changing environment. Change in abiotic factors such as climate may lead to shifts in species' traits across their ranges, but the impacts of biotic elements of global change on latitudinal clines in species' traits are less well understood. We find evidence that the presence of predatory invasive fire ants alters clines in the behavior, stress responsiveness, and morphology of a native lizard within 80 years (≈40 lizard generations). These results suggest that biotic components of global change can have powerful impacts across multiple organismal systems and large geographical extents even over relatively short time periods. [ABSTRACT FROM AUTHOR]

Published

2019

39. A Hollywood palm icon unmasked: clinal variation in Washingtonia (Arecaceae) of Peninsular California.

Author

Villanueva-Almanza, Lorena, Garcillán, Pedro P, ávila-Lovera, Eleinis, Pérez, Vanessa, Bejarano, Christian Silva, Focht, Eric, and Ezcurra, Exequiel

Subjects

*PALMS, *PLANT morphology, *MULTIPLE correspondence analysis (Statistics), *CLIMATE change, *PLANT populations

Abstract

Washingtonia is an American genus of palms currently composed of two species, W. filifera and W. robusta. Poor understanding of their morphology and distribution led initially to the description of numerous new species and, later, to a simplification resulting in the current understanding of the genus. In the wild, both distinct forms occur in the extremes of a 1300-km gradient, linked by morphological intermediates, suggesting that there is continuous morphological variation of the two forms instead of the long-held idea of two species. We addressed this hypothesis by taking measurements of morphological traits of stems and functional traits of leaves at 18 sites spanning the distribution range of the genus in Mexico and the USA. We examined the relationship between the traits of the plants, individually and all traits combined, and latitude using a principal component analysis. We compared a linear model against a non-linear model to test whether traits in Washingtonia change gradually along the latitudinal gradient or if there are clear geographical breaks between populations. We found strong statistical support for the hypothesis that there is a gradual change in vegetative morphological traits in Washingtonia along the latitudinal gradient of Peninsular California, instead of two clear morphologically distinguishable species with a hybrid zone. Our findings suggest that Washingtonia is composed of one highly variable species and that local differentiation of populations is related to environmental gradients. [ABSTRACT FROM AUTHOR]

Published

2018

40. Life history traits, but not body size, vary systematically along latitudinal gradients on three continents in the widespread yellow dung fly.

Author

Blanckenhorn, Wolf U., Bauerfeind, Stephanie S., Berger, David, Davidowitz, Goggy, Fox, Charles W., Guillaume, Frédéric, Nakamura, Satoshi, Nishimura, Kinya, Sasaki, Hitoshi, Stillwell, R. Craig, Tachi, Takuji, and Schäfer, Martin A.

Subjects

*LIFE history theory, *ANTHOMYIIDAE, *INSECT size, *ANIMAL genetics, *ANIMAL wintering

Abstract

Large‐scale clinal variation in body size and other life‐history traits is common enough to have stimulated the postulation of several eco‐geographical rules. Whereas some clinal patterns are clearly adaptive, the causes of others remain unclear. We present a comprehensive intraspecific population comparison for the cosmopolitan yellow dung fly Scathophaga stercoraria (Diptera: Scathophagidae) to check for consistent world‐wide patterns. Common garden assessment of various life history traits permitted continental comparison of (clinal) quantitative genetic differentiation (Qst) with putatively neutral genetic differentiation (Fst) derived from field‐caught flies. Latitudinal clines in fly development time, growth rate, and overwintering propensity were consistent among North American, European and Japanese populations. Increased winter dormancy incidence and duration at higher latitude, combined with a faster growth rate and shorter development time, suggest that flies are adaptated to season length more than to temperature. The resulting body size clines, in contrast, were not very consistent; importantly, they were not negative, as expected under seasonal constraints, but flat or even positive clines. Quantitative genetic differentiation QST exceeded neutral molecular variation FST for most traits, suggesting that natural selection plays a consistent role in mediating global dung fly life histories. We conclude that faster growth and development in response to shorter growing seasons at higher latitudes may indirectly counteract expected direct effects of temperature on body‐size, potentially resulting in flat or inconsistent body size clines in nature. [ABSTRACT FROM AUTHOR]

Published

2018

41. Avian predation intensity as a driver of clinal variation in colour morph frequency.

Author

Matthews, Genevieve, Goulet, Celine T., Delhey, Kaspar, Atkins, Zak S., While, Geoffrey M., Gardner, Michael G., Chapple, David G., and Meiri, Shai

Subjects

*PREDATION, *NATURAL selection, *BIOLOGICAL evolution, *BIRDS, *PHYSIOLOGY

Abstract

Phenotypic variation provides the framework for natural selection to work upon, enabling adaptive evolution. One of the most discernible manifestations of phenotypic variability is colour variation. When this variation is discrete, genetically based colour pattern morphs occur simultaneously within a population.Why and how colour polymorphisms are maintained is an evolutionary puzzle. Several evolutionary drivers have been hypothesized as influencing clinal patterns of morph frequency, with spatial variation in climate and predation being considered especially important. Despite this, no study has examined both of their roles simultaneously. The aims of this study were to: (a) examine the covariation of physiology, environmental variables and colouration at a local scale; and (b) determine if these factors and their interplay explain broad clinal variation in morph frequency.We used the lizard Liopholis whitii as a model system, as this species displays a discrete, heritable polymorphism for colour pattern (plain‐backed, patterned morphs) whose morph frequency varies latitudinally. We measured reflectance, field activity temperatures and microhabitat structure to test for differences in crypsis, thermal biology and microhabitat selection of patterned and plain‐backed morphs within a single population where colour morphs occur sympatrically. We then used data from the literature to perform a broad‐scale analysis to identify whether these factors also explained the latitudinal variation of morph frequency in this species.At the local scale, plain‐backed morphs were found to be less cryptic than patterned morphs while no other differences were detected in terms of thermal biology, dorsal reflectance and microhabitat use. At a broader scale, predation was the most influential factor mediating morph frequency across latitudes. However, the observed pattern of morph frequency is opposite to what the modelling results suggest in that the incidence of the least cryptic morph is highest where predation pressure is most severe. Clinal variation in the level of background matching between morphs or the potential reproductive advantage by the plain‐backed morph may, instead, be driving the observed morph frequency.Together, these results provide key insights into the evolution of local adaptation as well as the ecological forces involved in driving the dynamics of colour polymorphism. Why and how colour polymorphisms are maintained is an evolutionary puzzle. The authors use a field‐based study to show that geographic variation in bird predation pressure may drive clinal variation in colour morph frequency in an Australian polymorphic lizard. [ABSTRACT FROM AUTHOR]

Published

2018

42. Replicated latitudinal clines in reproductive traits of European and North American yellow dung flies.

Author

Bauerfeind, Stephanie S., Schäfer, Martin A., Berger, David, Blanckenhorn, Wolf U., and Fox, Charles W.

Subjects

*ANTHOMYIIDAE, *PHENOTYPIC plasticity, *SPATIAL variation, *SPECIES distribution, *SPECIES diversity, *INSECTS

Abstract

Geographic variation in phenotypic traits is commonly correlated with spatial variation in the environment, e.g. seasonality and mean temperature, providing evidence that natural selection generates such patterns. In particular, both body size and egg size of ectothermic animals are commonly larger in northern climates, and temperature induces plastic responses in both traits. Size‐independent egg quality can also vary with latitude, though this is rarely investigated. For the widespread yellow dung fly Scathophaga stercoraria (Diptera: Scathophagidae) we investigated whether there are latitudinal clines in reproductive traits (clutch size, egg size and egg composition), whether these clines are due to variation in body and/or egg size, and whether such clines replicate across independent experiments performed on different continents (North America and Europe). Egg size generally increased with latitude (especially in Europe), an effect largely explained by body size of the mother, while clutch size did not; overall reproductive effort thus increased with latitude. Both the absolute and relative (correcting for egg size) amount of egg protein increased with latitude, egg glycogen decreased with latitude, while latitudinal trends for egg lipids and total egg energy content were complex and non‐linear. Altitude sometimes showed relationships analogous to those of latitude (egg proteins and glycogen) but occasionally opposite (egg size), possibly because latitude and altitude are negatively related among populations of this cold‐adapted species. There was no evidence of a tradeoff between egg size and number across latitudinal populations; if anything, the relationship was positive. All traits, including body and egg size, varied with rearing temperature (12°C, 18°C, 24°C), generally following the temperature–size rule. Clines based on common garden rearing, thus reflecting genetic differentiation, were qualitatively but not always quantitatively consistent between continents, and were similar across rearing temperatures, suggesting they evolved due to natural selection, although the concrete selective mechanisms involved require further study. [ABSTRACT FROM AUTHOR]

Published

2018

43. Largely flat latitudinal life history clines in the dung fly Sepsis fulgens across Europe (Diptera: Sepsidae).

Author

Roy, Jeannine, Blanckenhorn, Wolf U., and Rohner, Patrick T.

Subjects

*DIPTERA, *DIPTERAN larvae, *SPECIES distribution, *SPECIES diversity, *DISPERSAL (Ecology), *PHYSIOLOGY

Abstract

Clinal variation in body size and related life history traits is common and has stimulated the postulation of several eco-geographical rules. Whereas some clinal patterns are clearly adaptive, the causes of others remain obscure. We investigated intra-specific body size, development time and female fecundity (egg size and number) clines across 13 European populations of the dung fly Sepsis fulgens spanning 20° latitude from southern Italy to Estonia in a genetic common garden approach. Despite very short generation times (ca. 2 weeks at 24 °C), we found a converse Bergmann cline (smaller size at higher latitudes). As development time did not change with latitude (flat cline), integral growth rate thus likely declines towards the pole. At the same time, early fecundity, but not egg size, increased with latitude. Rather than being mediated by seasonal time constraints, the body size reduction in the northernmost flies from Estonia could suggest that these are marginal, edge populations, as when omitting them the body size cline became flat as well. Most of the other sepsid species investigated to date also show flat body size clines, a pattern that strikingly differs from Drosophila. We conclude that S. fulgens life history traits appear to be shaped by similar environmental pressures and selective mechanisms across Europe, be they adaptive or not. This reiterates the suggestion that body size clines can result as a secondary consequence of selection pressures shaping an entire life history syndrome, rendering them inconsistent and unpredictable in general. [ABSTRACT FROM AUTHOR]

Published

2018

44. Sex-specific thermal sensitivities of performance and activity in the asian house gecko, Hemidactylus frenatus.

Author

Cameron, Skye F., Wheatley, Rebecca, and Wilson, Robbie S.

Subjects

*GECKOS, *DIMORPHISM in animals, *SEXUAL selection, *GREEN anole

Abstract

Studies of sexual selection primarily focus on morphological traits such as body size and secondary trait dimorphism, with less attention been given to the functional differences between the sexes and even more so their thermal performance capacities. Each sex may benefit from possessing different thermal performance capacities that would allow them to maximise their fitness relative to their different reproductive roles; especially when performances are closely related to reproductive success. Here, we examine sexual divergence in thermal sensitivities of performance across three populations of the Asian house gecko (Hemidactylus frenatus) over an extensive latitudinal cline. Using analyses of the thermal sensitivity of routine activity, bite force and sprint speed, we explored whether: (i) males and females differed in their optimal temperatures for performance, (ii) the sexes differed in their thermal sensitivities of performance, and (iii) the degree of sexual divergence in thermal sensitivity varied among the populations. Because male H. frenatus are highly aggressive and frequently engage in combat to gain territories and mating opportunities, we expected males would be active over a wider range of temperatures than females and this would favour broad thermal sensitivity curves for males. In addition, we expected a greater divergence between the sexes in thermal sensitivities for the temperate populations that experience greater daily and seasonal thermal variation. We found that males were more active, and had greater bite forces and faster sprint speeds than females, independent of body size. In addition, we found differences between the sexes in thermal sensitivities for the tropical population; female H. frenatus were less active and possessed lower sprint speeds at higher temperatures than males. Although H. frenatus from the most variable thermal environments also displayed the broadest thermal performance range, it was the more stable tropical population that exhibited the greatest divergence between the sexes in thermal sensitivity of performance. The divergence in thermal physiology that we detected between the sexes of H. frenatus is consistent with the idea that males will derive mating and territorial advantages for maintaining function over a broader range of temperatures. [ABSTRACT FROM AUTHOR]

Published

2018

45. Combining niche shift and population genetic analyses predicts rapid phenotypic evolution during invasion.

Author

Sotka, Erik E., Baumgardner, Aaron W., Bippus, Paige M., Destombe, Christophe, Duermit, Elizabeth A., Endo, Hikaru, Flanagan, Ben A., Kamiya, Mits, Lees, Lauren E., Murren, Courtney J., Nakaoka, Masahiro, Shainker, Sarah J., Strand, Allan E., Terada, Ryuta, Valero, Myriam, Weinberger, Florian, and Krueger‐Hadfield, Stacy A.

Subjects

*ECOLOGICAL niche, *POPULATION genetics, *HABITATS, *MICROEVOLUTION, *SALINITY

Abstract

The rapid evolution of non-native species can facilitate invasion success, but recent reviews indicate that such microevolution rarely yields expansion of the climatic niche in the introduced habitats. However, because some invasions originate from a geographically restricted portion of the native species range and its climatic niche, it is possible that the frequency, direction, and magnitude of phenotypic evolution during invasion have been underestimated. We explored the utility of niche shift analyses in the red seaweed Gracilaria vermiculophylla, which expanded its range from the northeastern coastline of Japan to North America, Europe, and northwestern Africa within the last 100 years. A genetically informed climatic niche shift analysis indicates that native source populations occur in colder and highly seasonal habitats, while most non-native populations typically occur in warmer, less seasonal habitats. This climatic niche expansion predicts that non-native populations evolved greater tolerance for elevated heat conditions relative to native source populations. We assayed 935 field-collected and 325 common-garden thalli from 40 locations, and as predicted, non-native populations had greater tolerance for ecologically relevant extreme heat (40°C) than did Japanese source populations. Non-native populations also had greater tolerance for cold and low-salinity stresses relative to source populations. The importance of local adaptation to warm temperatures during invasion was reinforced by evolution of parallel clines: Populations from warmer, lower-latitude estuaries had greater heat tolerance than did populations from colder, higher-latitude estuaries in both Japan and eastern North America. We conclude that rapid evolution plays an important role in facilitating the invasion success of this and perhaps other non-native marine species. Genetically informed ecological niche analyses readily generate clear predictions of phenotypic shifts during invasions and may help to resolve debate over the frequency of niche conservatism versus rapid adaptation during invasion. [ABSTRACT FROM AUTHOR]

Published

2018

46. How have our clocks evolved? Adaptive and demographic history of the out-of-African dispersal told by polymorphic loci in circadian genes.

Author

Putilov, Arcady A., Dorokhov, Vladimir B., and Poluektov, Michael G.

Subjects

*CIRCADIAN rhythms, *INFLUENCE of altitude, *SLEEP-wake cycle, *GENE frequency, *EFFECT of environment on human beings

Abstract

The mechanism of the molecular circadian clocks is currently understood as a transcription/translation feedback loop involving more than ten genes. Genetic variation at some of loci in these genes has been shaped by adaptation to environmental factors. In particular, latitudinal clines in allele frequency were documented in several animal species, but the contradictory conclusions were drawn from the results of rare human studies. Here we tested whether the out-of-African dispersal of human populations to higher latitudes of the Eurasian continent was associated with latitude-dependent shifts in allele frequency at polymorphic loci in genes of three (reference, circadian and skin pigmentation) groups. In order to detect the genetics-based signatures left by latitude-driven adaptation and to distinguish them from the confounding effects of population demographic history, we analyzed allele frequencies in 1594 individuals from 5 African and 11 Eurasian populations of the 1000 Genomes Project Phase 3. Up to 80 polymorphisms with global minor allele frequency > 0.2 were sampled from each of 36 genes (1665 polymorphisms in total). As expected, percentage of polymorphisms demonstrating both significantly enlarged differentiation of Eurasian populations on allele frequency and significant correlation between latitude and allele frequency was significantly higher in pigmentation genes compared to circadian genes and in circadian genes compared to reference genes. We also showed that the latitude-driven adaptation can be separated from genetic consequences of demographic perturbations by comparison of results obtained for the whole set of 16 African and Eurasian populations with results for only Eurasian populations that share the common demographic history. The revealed latitudinal clines in allele frequency seemed to be shaped by polygenic selection occurring by small allele frequency shifts spread across many loci in circadian and non-circadian genes. The present results provided a rationale for necessity to facilitate candidate gene studies by prioritizing genetic markers of chronotype. [ABSTRACT FROM AUTHOR]

Published

2018

47. Temperature‐dependent oxygen limitation and the rise of Bergmann's rule in species with aquatic respiration.

Author

Rollinson, Njal and Rowe, Locke

Subjects

*BERGMANN'S rule, *COLD-blooded animals, *RESPIRATION, *MACROEVOLUTION, *PHYLOGENY

Abstract

Abstract: Bergmann's rule is the propensity for species‐mean body size to decrease with increasing temperature. Temperature‐dependent oxygen limitation has been hypothesized to help drive temperature–size relationships among ectotherms, including Bergmann's rule, where organisms reduce body size under warm oxygen‐limited conditions, thereby maintaining aerobic scope. Temperature‐dependent oxygen limitation should be most pronounced among aquatic ectotherms that cannot breathe aerially, as oxygen solubility in water decreases with increasing temperature. We use phylogenetically explicit analyses to show that species‐mean adult size of aquatic salamanders with branchial or cutaneous oxygen uptake becomes small in warm environments and large in cool environments, whereas body size of aquatic species with lungs (i.e., that respire aerially), as well as size of semiaquatic and terrestrial species do not decrease with temperature. We argue that oxygen limitation drives the evolution of small size in warm aquatic environments for species with aquatic respiration. More broadly, the stronger decline in size with temperature observed in aquatic versus terrestrial salamander species mirrors the relatively strong plastic declines in size observed previously among aquatic versus terrestrial invertebrates, suggesting that temperature‐dependent oxygen availability can help drive patterns of plasticity, micro‐ and macroevolution. [ABSTRACT FROM AUTHOR]

Published

2018

48. The Janus of macrophysiology: stronger effects of evolutionary history, but weaker effects of climate on upper thermal limits are reversed for lower thermal limits in ants.

Author

DIAMOND, Sarah E. and CHICK, Lacy D.

Subjects

*SPECIES, *BIOLOGICAL evolution, *EVOLUTIONARY theories, *TEMPERATURE, *CLIMATOLOGY

Abstract

Species may exhibit similar traits via different mechanisms: environmental filtering and local adaptation (geography) and shared evolutionary history (phylogeny) can each contribute to the resemblance of traits among species. Parsing trait variation into geographic and phylogenetic sources is important, as each suggests different constraints on trait evolution. Here, we explore how phylogenetic distance, geographic distance, and geographic variation in climate shape physiological tolerance of high and low temperatures using a global dataset of ant thermal tolerances. We found generally strong roles for evolutionary history and geographic variation in temperature, but essentially no detectable effects of spatial proximity per se on either upper or lower thermal tolerance. When we compared the relative importance of the factors shaping upper and lower tolerances, we found a much stronger role for evolutionary history in shaping upper versus lower tolerance, and a moderately weaker role for geographic variation in temperature in shaping upper tolerance when compared with lower tolerance. Our results demonstrate how geographic variation in climate and evolutionary history may have differential effects on the upper and lower endpoints of physiological tolerance. This Janus effect, where the relative contributions of geographic variation in climate and evolutionary history are reversed for lower versus upper physiological tolerances, has gained some support in the literature, and our results for ant physiological tolerances provide further evidence of this pattern. As the climate continues to change, the high phylogenetic conservatism of upper tolerance may suggest potential constraints on the evolution of tolerance of high temperatures. [ABSTRACT FROM AUTHOR]

Published

2018

49. Evidence for a Prepupal Diapause in the Mountain Pine Beetle (Dendroctonus ponderosae).

Author

Bentz, Barbara J. and Hansen, E. Matthew

Subjects

MOUNTAIN pine beetle, DIAPAUSE, BARK beetles, INSECT phenology, CLIMATE change

Abstract

Dormancy strategies, including diapause and quiescence, enable insects to evade adverse conditions and ensure seasonally appropriate life stages. A mechanistic understanding of a species' dormancy is necessary to predict population response in a changing climate. Climate change is influencing distribution patterns and population success of many species, including Dendroctonus ponderosae Hopkins (Coleoptera: Curculionidae: Scolytinae), the most important mortality agent of pines in western North America. Diapause is considered absent in D. ponderosae, and quiescence in the final larval stage prior to pupation (i.e., prepupal) is considered the main dormancy strategy. We evaluated if a facultative diapause in the prepupal stage, rather than a pupation threshold ~15°C (i.e., quiescence), could describe pupation patterns in two latitudinally separated D. ponderosae populations in the western United States. We hypothesized that if pupation occurs at lower temperatures than previously described, and if significant prepupal developmental delays occur, diapause is a likely physiological mechanism. Although there was considerable variation within and between populations, pupation occurred below the previously established threshold suggesting a prepupal facultative diapause that is induced when late instars experience cool temperatures. Individuals that pupated at temperatures below 15°C also had developmental delays, relative to development at warmer temperatures, consistent with diapause development. Pupation patterns differed between populations wherein diapause was induced at cooler temperatures and diapause development was shorter in southern compared with northern D. ponderosae. Recognition of a facultative diapause that varies among and between populations is critical for making predictions about future population response and range expansion in a changing climate. [ABSTRACT FROM AUTHOR]

Published

2018

50. Introgression from Populus balsamifera underlies adaptively significant variation and range boundaries in P. trichocarpa.

Author

Suarez‐Gonzalez, Adriana, Hefer, Charles A., Lexer, Christian, Douglas, Carl J., and Cronk, Quentin C. B.

Subjects

*INTROGRESSION (Genetics), *PHENOTYPES, *PLANT genetics, *BALSAM poplar, *DISEASE resistance of plants

Abstract

Introgression can be an important source of adaptive phenotypes, although conversely it can have deleterious effects. Evidence for adaptive introgression is accumulating but information on the genetic architecture of introgressed traits lags behind., Here we determine trait architecture in Populus trichocarpa under introgression from P. balsamifera using admixture mapping and phenotypic analyses., Our results reveal that admixture is a key driver of clinal adaptation and suggest that the northern range extension of P. trichocarpa depends, at least in part, on introgression from P. balsamifera. However, admixture with P. balsamifera can lead to potentially maladaptive early phenology, and a reduction in growth and disease resistance in P. trichocarpa. Strikingly, an introgressed chromosome 9 haplotype block from P. balsamifera restores the late phenology and high growth parental phenotype in admixed P. trichocarpa. This epistatic restorer block may be strongly advantageous in maximizing carbon assimilation and disease resistance in the southernmost populations where admixture has been detected. We also confirm a previously demonstrated case of adaptive introgression in chromosome 15 and show that introgression generates a transgressive chlorophyll-content phenotype., We provide strong support that introgression provides a reservoir of genetic variation associated with adaptive characters that allows improved survival in new environments. [ABSTRACT FROM AUTHOR]

Published

2018