Your search keyword '"Intraspecific variation"' showing total 4,346 results

1. Intraspecific variation in antibiotic resistance potential within E. coli.

Author

Suarez, Stacy and Martiny, Adam

Subjects

antibiotic resistance, drug resistance evolution, drug resistance mechanisms, functional metagenomics, intraspecific variation, Escherichia coli, Anti-Bacterial Agents, Drug Resistance, Bacterial, Microbial Sensitivity Tests, Humans, Genetic Variation, Escherichia coli Infections, Metagenomics, Drug Resistance, Multiple, Bacterial

Abstract

Intraspecific genomic diversity brings the potential for an unreported and diverse reservoir of cryptic antibiotic resistance genes in pathogens, as cryptic resistance can occur without major mutations and horizontal transmission. Here, we predicted the differences in the types of antibiotics and genes that induce cryptic and latent resistance between micro-diverse Escherichia coli strains. For example, we hypothesize that known resistance genes will be the culprit of latent resistance within clinical strains. We used a modified functional metagenomics method to induce expression in eight E. coli strains. We found a total of 66 individual genes conferring phenotypic resistance to 11 out of 16 antibiotics. A total of 14 known antibiotic resistance genes comprised 21% of total identified genes, whereas the majority (52 genes) were unclassified cryptic resistance genes. Between the eight strains, 1.2% of core orthologous genes were positive (conferred resistance in at least one strain). Sixty-four percent of positive orthologous genes conferred resistance to only one strain, demonstrating high intraspecific variability of latent resistance genes. Cryptic resistance genes comprised most resistance genes among laboratory and clinical strains as well as natural, semisynthetic, and synthetic antibiotics. Known antibiotic resistance genes primarily conferred resistance to multiple antibiotics from varying origins and within multiple strains. Hence, it is uncommon for E. coli to develop cross-cryptic resistance to antibiotics from multiple origins or within multiple strains. We have uncovered prospective and previously unknown resistance genes as well as antibiotics that have the potential to trigger latent antibiotic resistance in E. coli strains from varying origins.IMPORTANCEIntraspecific genomic diversity may be a driving force in the emergence of adaptive antibiotic resistance. Adaptive antibiotic resistance enables sensitive bacterial cells to acquire temporary antibiotic resistance, creating an optimal window for the development of permanent mutational resistance. In this study, we investigate cryptic resistance, an adaptive resistance mechanism, and unveil novel (cryptic) antibiotic resistance genes that confer resistance when amplified within eight E. coli strains derived from clinical and laboratory origins. We identify the potential of cryptic resistance genes to confer cross-resistance to antibiotics from varying origins and within multiple strains. We discern antibiotic characteristics that promote latent resistance in multiple strains, considering intraspecific diversity. This study may help detect novel resistance genes and functional genes that could become responsible for cryptic resistance among diverse strains and antibiotics, thus also identifying potential novel antibiotic targets and mechanisms.

Published

2024

2. Genetic divergence and one-way gene flow influence contemporary evolution and ecology of a partially migratory fish.

Author

Kobayashi, Katie, Bond, Rosealea, Reid, Kerry, Garza, J, Kiernan, Joseph, and Palkovacs, Eric

Subjects

Omy05, Oncorhynchus mykiss, anadromy, contemporary evolution, eco‐evolutionary dynamics, gene flow, intraspecific variation, rainbow trout, residency, secondary contact, steelhead

Abstract

Recent work has revealed the importance of contemporary evolution in shaping ecological outcomes. In particular, rapid evolutionary divergence between populations has been shown to impact the ecology of populations, communities, and ecosystems. While studies have focused largely on the role of adaptive divergence in generating ecologically important variation among populations, much less is known about the role of gene flow in shaping ecological outcomes. After divergence, populations may continue to interact through gene flow, which may influence evolutionary and ecological processes. Here, we investigate the role of gene flow in shaping the contemporary evolution and ecology of recently diverged populations of anadromous steelhead and resident rainbow trout (Oncorhynchus mykiss). Results show that resident rainbow trout introduced above waterfalls have diverged evolutionarily from downstream anadromous steelhead, which were the source of introductions. However, the movement of fish from above to below the waterfalls has facilitated gene flow, which has reshaped genetic and phenotypic variation in the anadromous source population. In particular, gene flow has led to an increased frequency of residency, which in turn has altered population density, size structure, and sex ratio. This result establishes gene flow as a contemporary evolutionary process that can have important ecological outcomes. From a management perspective, anadromous steelhead are generally regarded as a higher conservation priority than resident rainbow trout, even when found within the same watershed. Our results show that anadromous and resident O. mykiss populations may be connected via gene flow, with important ecological consequences. Such eco-evolutionary processes should be considered when managing recently diverged populations connected by gene flow.

Published

2024

3. 邻体竞争和土壤对植物叶功能性状 及其种内变异的影响.

Author

冯莉绚, 黄志群, 贾辉, 王涛, 卢安琪, and 余再鹏

Abstract

To investigate the relationship between intraspecific variation in plant functional traits and neighborhood competition and soil, young trees of 12 subtropical tree species were selected as research objects to analyze the differences in six common traits (specific leaf area, leaf area, leaf dry matter content, leaf nitrogen content, leaf phosphorus content, and leaf thickness) related to the acquisition and utilization of plant resources, to explore the degree of intraspecific variation in different plant functional traits, and the influence of neighborhood competitional and soil factors on the variation of these traits. The aim was to explore the degree of intraspecific variation in different plant functional traits and influence of neighborhood competitional and soil factors on these variations. The results showed that the six leaf traits exhibited different degrees of variability. Specific leaf area had the highest coefficient of variation, ranging from 16. 71% to 55. 31%, whereas leaf dry matter content had the lowest variability within the study species. Both neighborhood competition and soil factors influenced changes in leaf traits, with neighborhood competition playing a more significant role. Neighborhood competition index and neighborhood height index had significant positive effects on comparative leaf area and leaf phosphorus content (P＜0. 05). In contrast, leaf area and dry matter content significantly decreased with increasing neighborhood height index (P＜0. 05). Leaf nitrogen content was affected only by soil pH value. In addition, soil water content, soil carbon content, and soil bulk density contributed to variations in leaf traits. Therefore, when creating plantation forests, the relationship between plant functional traits and environmental adaptation should be considered. [ABSTRACT FROM AUTHOR]

Published

2024

4. Randomising spatial patterns supports the integration of intraspecific variation in ecological niche models.

Author

Preuk, Niels, Romero-Mujalli, Daniel, Zurell, Damaris, Steinbauer, Manuel, and Juergen Kreyling, and

Abstract

Ecological niche models (ENMs) are an essential modelling technique in biodiversity prediction and conservation and are frequently used to forecast species responses to global changes. Classic species‐level models may show limitations as they assume species homogeneity, neglecting intraspecific variation. Composite ENMs allow the integration of intraspecific variation by combining intraspecific‐level ENMs, capturing individual environmental responses over the species' geographic range. While recent studies suggest that accounting for intraspecific variation improves model predictions, we currently lack methods to test the significance of the improvement. Here, we propose a null model approach that randomises observed intraspecific structures as an appropriate baseline for comparison. We illustrate this approach by comparing predictive performance of a species‐level ENM to composite ENMs for European beech Fagus sylvatica. To investigate the influence of spatial lineage structure, we tested all models against the same withheld data to allow comparison across models based on five common performance metrics. We found that the species‐level ENM expressed higher overall performance (i.e. AUC, TSS, and Boyce index) and specificity (ability to predict absences), while the composite ENMs achieved higher sensitivity (ability to predict presences). In line with this, the composite ENMs also showed increased sensitivity and decreased specificity compared to the null models that randomised lineage structure. We showed that the assessment of model performance strongly varies based on the used measures, emphasising a careful investigation of multiple measures for evaluation. The application of null models allowed us to disentangle the effect of observed patterns of intraspecific variation in ENMs. Further, we highlight the validation and use of well‐founded subgroups for modelling. Although intraspecific variation improves the prediction of occurrences of European beech, it did not fully outcompete the classic species‐level model and should be used with care and rather to improve understanding and to supplement, not replace, species‐level models. [ABSTRACT FROM AUTHOR]

Published

2024

5. Heritable intraspecific variation among prey in size and movement interact to shape predation risk and potential natural selection.

Author

Coblentz, Kyle E., Yang, Liuqingqing, Dalal, Arpita, Incarnato, Miyauna M. N., Thilakarathne, Dinelka D., Shaw, Cameron, Wilson, Ryan, Biagioli, Francis, Montooth, Kristi L., and DeLong, John P.

Abstract

Predator and prey traits are important determinants of the outcomes of trophic interactions. In turn, the outcomes of trophic interactions shape predator and prey trait evolution. How species' traits respond to selection from trophic interactions depends crucially on whether and how heritable species' traits are and their genetic correlations. Of the many traits influencing the outcomes of trophic interactions, body size and movement traits have emerged as key traits. Yet, how these traits shape and are shaped by trophic interactions is unclear, as few studies have simultaneously measured the impacts of these traits on the outcomes of trophic interactions, their heritability, and their correlations within the same system.We used outcrossed lines of the ciliate protist Paramecium caudatum from natural populations to examine variation in morphology and movement behaviour, the heritability of that variation, and its effects on Paramecium susceptibility to predation by the copepod Macrocyclops albidus.We found that the Paramecium lines exhibited heritable variation in body size and movement traits. In contrast to expectations from allometric relationships, body size and movement speed showed little covariance among clonal lines. The proportion of Paramecium consumed by copepods was positively associated with Paramecium body size and velocity but with an interaction such that greater velocities led to greater predation risk for large body‐sized paramecia but did not alter predation risk for smaller paramecia. The proportion of paramecia consumed was not related to copepod body size. These patterns of predation risk and heritable trait variation in paramecia suggest that copepod predation may act as a selective force operating independently on movement and body size and generating the strongest selection against large, high‐velocity paramecia.Our results illustrate how ecology and genetics can shape potential natural selection on prey traits through the outcomes of trophic interactions. Further simultaneous measures of predation outcomes, traits, and their quantitative genetics will provide insights into the evolutionary ecology of species interactions and their eco‐evolutionary consequences. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

6. Interspecific trait differences drive plant community responses on serpentine soils.

Author

Delhaye, Guillaume, Dimitrakopoulos, Panayiotis G., and Adamidis, George C.

Subjects

*TRACE metals, *ENDEMIC species, *SPECIES distribution, *PLANT communities, *PLANT species

Abstract

Serpentine ecosystems are characterised by multiple environmental stressors: high levels of trace metals such as nickel (Ni), low availability of macronutrients and low water retention. These harsh environmental conditions exert a strong selective force on the vegetation, but their effect on community assembly processes and the functional trait composition remains unknown. In 26 plots on four serpentine sites on Lesbos Island (Greece), we measured six leaf functional traits related to resource acquisition and stress resistance on the 20 most abundant plant species. We quantified the proportion of variance explained by inter‐ and intraspecific trait differences and tested if individual species showed changes in trait values explained by soil Ni content. We investigated the adaptive value and the community level changes for each trait along the natural soil Ni gradient using a mixed model approach and functional diversity analyses. We tested the role of the abundant serpentine endemic and Ni‐hyperaccumulating species Odontarrhena lesbiaca in driving these patterns. Intraspecific variation explained by soil Ni content is smaller than 4%, and most of the variance is explained by interspecific differences in trait values. Most species do not show significant changes in trait values in response to soil Ni. At the community level, low specific leaf areas, small and thick leaves are selected on high Ni soils. Functional diversity analyses suggest a shift towards a stress tolerance syndrome (thick and small leaves with low SLA values) and an increase in functional diversity on Ni‐rich soils. However, these patterns are driven by the increasing abundance of O. lesbiaca. The endemic Ni hyperaccumulator has a stress tolerance strategy with small thick leaves and low SLA, while the community of broadly distributed species show an increase in trait values related to dominance and fast growth. Synthesis. Intraspecific variation in leaf trait responds little to soil metal toxicity. Endemic species harbour unique trait values compared to species with broad distribution which should justify their conservation as a priority. [ABSTRACT FROM AUTHOR]

Published

2024

7. The potential of strigolactones to shift competitive dynamics among two Rhizophagus irregularis strains.

Author

Klein, Malin, Bisot, Corentin, Oyarte Gálvez, Loreto, Kokkoris, Vasilis, Shimizu, Thomas S., Lemeng Dong, Weedon, James T., Bouwmeester, Harro, and Kiers, E. Toby

Subjects

VESICULAR-arbuscular mycorrhizas, MIXED culture (Microbiology), STRIGOLACTONES, SPORES, PLANT hormones

Abstract

Strigolactones are phytohormones that influence arbuscular mycorrhizal fungal (AMF) spore germination, pre-symbiotic hyphal branching, and metabolic rates. Historically, strigolactone effects have been tested on single AMF strains. An open question is whether intraspecific variation in strigolactone effects and intraspecific interactions can influence AMF competition. Using the Rhizophagus irregularis strains A5 and C2, we tested for intraspecific variation in the response of germination and pre-symbiotic growth (i.e., hyphal length and branching) to the strigolactones GR24 and 5-deoxystrigol. We also tested if interactions between these strains modified their germination rates and pre-symbiotic growth. Spore germination rates were consistently high (> 90%) for C2 spores, regardless of treatment and the presence of the other strain. For A5 spores, germination was increased by strigolactone presence from approximately 30 to 70% but reduced when grown in mixed culture. When growing together, branching increased for both strains compared to monocultures. In mixed cultures, strigolactones increased the branching for both strains but led to an increase in hyphal length only for the strain A5. These strain-specific responses suggest that strigolactones may have the potential to shift competitive dynamics among AMF species with direct implications for the establishment of the AMF community. [ABSTRACT FROM AUTHOR]

Published

2024

8. Adaptive Seedling Strategies in Seasonally Dry Tropical Forests: A Comparative Study of Six Tree Species.

Author

Espinosa, Carlos Ivan, Esparza, Elvia, and Jara-Guerrero, Andrea

Subjects

TROPICAL dry forests, SEED size, GERMINATION, RESTORATION ecology, DROUGHT tolerance

Abstract

This study examines seed germination strategies and seedling establishment in six tree species typical of seasonally dry tropical forests. We focused on how interspecific and intraspecific differences in seed size and germination speed influence biomass allocation and seedling growth. Using generalized linear models, we analyzed the effects of these traits on root/shoot ratios and growth rates. Our findings reveal two main strategies: slow germination, high root/shoot ratio, and low growth rate in Erythrina velutina Willd and Terminalia valverdeae A.H. Gentry, associated with enhanced drought tolerance. In contrast, Cynophalla mollis (Kunth) J. Presl and Coccoloba ruiziana Lindau exhibited rapid germination, lower root/shoot ratios, and low to moderate growth rates, favoring competition during early establishment. Centrolobium ochroxylum Rose ex Rudd partially aligned with this second strategy due to its fast growth. Vachellia macracantha (Humb. & Bonpl. ex Willd.) Seigler & Ebinger presented a unique case, displaying slow germination and a broad range in both root/shoot ratios and growth rates. At the intraspecific level, significant variation in biomass allocation and growth rate was observed, influenced by germination speed and seed weight. We discuss the adaptive significance of seed traits in SDTFs and their role in seedling establishment under varying environmental conditions, providing insights for strategies for conservation and restoration in these ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

9. Simple and Accurate Representation of Cumulative Nighttime Leaf Respiratory CO2 Efflux.

Author

Bruhn, Dan, Slot, Martijn, and Mercado, Lina M.

Subjects

*WORK measurement, *RESPIRATORY measurements, *CARBON dioxide, *EDDIES, *CARBON

Abstract

Leaf respiratory carbon loss decreases independent of temperature as the night progresses. Detailed nighttime measurements needed to quantify cumulative respiratory carbon loss at night are challenging under both lab and field conditions. We provide a simple yet accurate approach to represent variation in nighttime temperature‐independent leaf respiratory CO2 efflux in environments with both stable and fluctuating temperatures, which requires no detailed measurements throughout the night. We demonstrate that the inter‐ and intraspecific variation in the cumulative leaf respiratory CO2 efflux at constant temperature, at any length of night, scales linearly with the inter‐ and intraspecific variation in initial measurement of leaf respiratory CO2 efflux at the same temperature at the beginning of the night. This approach informs large‐scale predictions of cumulative leaf respiratory CO2 efflux, which is needed to understand plant carbon economy in global change studies as well as in global modeling and eddy covariance monitoring of the land–atmosphere exchange of CO2. [ABSTRACT FROM AUTHOR]

Published

2024

10. Contrast in larval sensitivity to low pH in sea urchins from neighbouring seagrass meadows at Inhaca Island, Mozambique.

Author

Duvane, JA, Cossa, D, de Abreu, DC, Mafambissa, M, Scarlet, MP, Macia, A, and Dupont, S

Subjects

*MARINE biology, *SEAGRASSES, *OCEAN acidification, *CONTRAST sensitivity (Vision), *SEA urchins, *EXTREME environments

Abstract

Ocean acidification presents a major threat to marine life, and a large body of evidence has documented its negative effects on various marine species and ecosystems. Recent meta-analyses highlight the key role of local adaptation and have linked species' sensitivity to extremes of the present range of pH variability. More specifically, 'physiological tipping points' can be correlated with the lowest experienced pH where the organisms live. We verified this hypothesis by comparing the responses of larvae of the collector urchin Tripneustes gratilla originating from two neighbouring seagrass meadows at Inhaca Island in southern Mozambique. The two seagrass meadows experience different conditions: the site at the Inhaca Marine Biology Research Station (Estação de Biologia Marítima de Inhaca, EBMI) is subtidal, and the site at Banguá is intertidal. Larvae of adults collected from the two sites were cultured in the laboratory under four different target pH treatments (8.04, 7.67, 7.46 and 7.29) for 7 days. The results showed an overall negative effect of lower pH on survival and growth as well as on an index of symmetry. Larvae originating from the intertidal seagrass habitat at Banguá which experiences large pH fluctuations were more sensitive to a lower pH than those from the subtidal seagrass habitat at EBMI. This finding suggests that different mechanisms for pH tolerance and local adaptation may apply in subtidal versus intertidal environments. Consequently, the unifying principle that physiological tipping points are correlated with the extreme low pH in the present range of variability, may reach its limit in increasingly extreme environments under natural conditions. [ABSTRACT FROM AUTHOR]

Published

2024

11. Grow with the flow: Is phenotypic plasticity across hydrodynamic gradients common in seaweeds?

Author

Coleman, Liam J. M. and Martone, Patrick T.

Subjects

*BROWN algae, *PHENOTYPIC plasticity, *SKEWNESS (Probability theory), *MARINE algae, *BOUNDARY layer (Aerodynamics)

Abstract

Seaweeds are widely assumed to be phenotypically plastic across hydrodynamic gradients, yet while many marine macroalgae exhibit intraspecific phenotypic variation that correlates with flow, researchers often fail to test whether such variation is due to plasticity or another mechanism, such as local adaptation. In this minireview, we considered mechanisms for sensing flow in seaweeds that could facilitate adaptive phenotypic plasticity across hydrodynamic gradients. We then reviewed the literature from 1900 to 2024 to see how often phenotypic variation and plasticity across hydrodynamic gradients had been observed and demonstrated in different groups of seaweeds. In the last 124 years, phenotypic variation and plasticity in response to flow have been well documented in brown algae but scarcely documented in red and green algae. This could suggest that brown algae are better able to sense and respond to flow than red and green algae, perhaps due to the intercalary meristem of many brown algae, including most kelps. However, this skewed distribution could also be the result of publication bias, as most studies involving flow have been conducted on brown algae. Only 30% of 141 papers specifically investigated if observations of phenotypic variation along hydrodynamic gradients were due to plasticity. To date, phenotypic plasticity in response to flow has been demonstrated in 20 brown algal species, five red algal species, and two green algal species. Thus, the assumption that phenotypic plasticity to flow is common across seaweeds is not particularly well supported by the literature. Mechanisms underlying plasticity to flow are poorly understood and remain a critical avenue for future research. [ABSTRACT FROM AUTHOR]

Published

2024

12. Intraspecific body size variation across distributional moments reveals trait filtering processes.

Author

Fitzgerald, Jacquelyn L., Ogilvie, Jane E., and CaraDonna, Paul J.

Abstract

Natural populations are composed of individuals that vary in their morphological traits, timing and interactions. The distribution of a trait can be described by several dimensions, or mathematical moments—mean, variance, skew and kurtosis. Shifts in the distribution of a trait across these moments in response to environmental variation can help to reveal which trait values are gained or lost, and consequently how trait filtering processes are altering populations. To examine the role and drivers of intraspecific variation within a trait filtering framework, we investigate variation in body size among five wild bumblebee species in the Colorado Rocky Mountains. First, we examine the relationships between environmental factors (climate and floral food resources) and body size distributions across bumblebee social castes to identify demographic responses to environmental variation. Next, we examine changes in the moments of trait distributions to reveal potential mechanisms behind intraspecific shifts in body size. Finally, we examine how intraspecific body size variation is related to diet breadth and phenology. We found that climate conditions have a strong effect on observed body size variation across all distributional moments, but the filtering mechanism varies by social caste. For example, with earlier spring snowmelt queens declined in mean size and became negatively skewed and more kurtotic. This suggests a skewed filter admitting a greater frequency of small individuals. With greater availability of floral food resources, queens increased in mean size, but workers and males decreased in size. Observed shifts in body size variation also correspond with variation in diet breadth and phenology. Populations with larger average body size were associated with more generalized foraging in workers of short‐tongued species and increased specialization in longer‐tongued workers. Altered phenological timing was associated with species‐ and caste‐specific shifts in skew. Across an assemblage of wild bumblebees, we find complex patterns of trait variation that may not have been captured if we had simply considered mean and variance. The four‐moment approach we employ here provides holistic insight into intraspecific trait variation, which may otherwise be overlooked and reveals potential underlying filtering processes driving such variation within populations. [ABSTRACT FROM AUTHOR]

Published

2024

13. Integration of attractive and defensive phytochemicals is unlikely to constrain chemical diversification in a perennial herb.

Author

Thosteman, Hanna Eriksdotter, Eisen, Katherine, Petrén, Hampus, Boutsi, Sotiria, Pace, Loretta, Halley, John M., De Moraes, Consuelo M., Mescher, Mark C., Buckley, James, and Friberg, Magne

Subjects

*BOTANICAL chemistry, *GLUCOSINOLATES, *PHENOTYPIC plasticity, *PHYTOCHEMICALS, *CHEMICAL plants

Abstract

Summary: Diversification of plant chemical phenotypes is typically associated with spatially and temporally variable plant–insect interactions. Floral scent is often assumed to be the target of pollinator‐mediated selection, whereas foliar compounds are considered targets of antagonist‐mediated selection. However, floral and vegetative phytochemicals can be biosynthetically linked and may thus evolve as integrated phenotypes.Utilizing a common garden of 28 populations of the perennial herb Arabis alpina (Brassicaceae), we investigated integration within and among floral scent compounds and foliar defense compounds (both volatile compounds and tissue‐bound glucosinolates).Within floral scent volatiles, foliar volatile compounds, and glucosinolates, phytochemicals were often positively correlated, and correlations were stronger within these groups than between them. Thus, we found no evidence of integration between compound groups indicating that these are free to evolve independently. Relative to self‐compatible populations, self‐incompatible populations experienced stronger correlations between floral scent compounds, and a trend toward lower integration between floral scent and foliar volatiles.Our study serves as a rare test of integration of multiple, physiologically related plant traits that each are potential targets of insect‐mediated selection. Our results suggest that independent evolutionary forces are likely to diversify different axes of plant chemistry without major constraints. [ABSTRACT FROM AUTHOR]

Published

2024

14. The loss of riparian vegetation along streams causes morphological divergences in functional traits of semiaquatic insects (Heteropteran: Gerromorpha) in the eastern Amazon.

Author

Silva, Beatriz Luz, Guterres, Alana P. M., Santana, Sol Silva, Cunha, Erlane José, and Juen, Leandro

Subjects

DEFORESTATION, RESOURCE availability (Ecology), SPECIES distribution, MINERALS, SEXUAL dimorphism, RIPARIAN plants

Abstract

Understanding the effects of mining activities on Amazonian streams and their impact on aquatic communities is of paramount importance in the current context of resource overexploitation in society. In this study, we assessed the significance of the environment and interspecific interactions on the organization patterns of semiaquatic insect species in a mineral extraction region in the eastern Amazon. We utilized the morpho functional characteristics of 22 species from the suborder Gerromorpha (Heteropteran), considering both the abundance and sexual dimorphism of these species. Additionally, we quantified the density of riparian vegetation surrounding each stream to categorize sampling points and evaluate whether there are differences in species distribution patterns among categories. We sampled 16 sites, categorized into two treatments based on the percentage of riparian vegetation in forested and deforested areas located in the Capim River Basin. We did not find the action of environmental filters on the total assembly; however, we found significant morphological divergence for all the traits analyzed. On the other hand, the separation of streams into treatments with different portions of riparian vegetation showed that there are significant differences between them regarding species distribution patterns. Forested streams within a 500-m radius have species distributed over a larger area, indicating that these streams have greater resource availability or that species can use these resources more efficiently. Our results demonstrate the importance of riparian vegetation for the studied communities, as well as for mitigating the impacts caused by mining activities. [ABSTRACT FROM AUTHOR]

Published

2024

15. Common camas (Camassia quamash) response across an urban–rural gradient in coastal oak meadows in Greater Victoria, Canada.

Author

Rolleman, Erin, Lantz, Trevor, Mathews, Darcy, and Shackelford, Nancy

Subjects

URBAN ecology, SOIL compaction, KEYSTONE species, SOIL depth, PHOSPHORUS in soils

Abstract

Coastal oak meadows are fragmented across an increasingly urbanized landscape in Greater Victoria with implications for common camas (qʷɫəɫ/KȽO,EL/Camassia quamash) fitness. Common camas, frequently present in coastal oak meadows, is an ecologically important cultural keystone species that forms the foundation of one of the most important Indigenous food systems in the region. Previous research has examined how the pressures associated with urbanization shape plant community composition and structure, but how these pressures influence individual plant fitness remains unclear. To improve our understanding, we assessed environmental conditions and common camas growth and reproductive traits across an urban-rural gradient in Greater Victoria. We found that urbanization on this landscape alters several key environmental variables (namely increased trampling and soil compaction, and decreased soil depth, canopy cover, and soil phosphorus) and that common camas appears to be responding to these altered conditions with a reduction in growth and reproductive trait values. By targeting the identified pressures, management can work towards supporting more successful urban camas populations into the future. [ABSTRACT FROM AUTHOR]

Published

2024

16. A Multi‐Modelling Approach for Informing the Conservation of a Cold‐Adapted Terrestrial Amphibian in the Face of Climate Change.

Author

Čengić, Mirza, Šunje, Emina, Bonato, Lucio, Van Damme, Raoul, Lenders, Rob H. J., Huijbregts, Mark A. J., Lukić Bilela, Lada, and Schipper, Aafke M.

Subjects

*CLIMATE change models, *SPECIES distribution, *WEB-based user interfaces, *DATABASES, *SPATIAL resolution

Abstract

ABSTRACT Aim Location Taxon Methods Results Main Conclusions We aimed to assess potential climate change impacts on the distribution of a cold‐adapted terrestrial amphibian that shows strong intraspecific differentiation.Alps and Dinarides.Alpine salamander (Salamandra atra).We built SDMs for each of two major intraspecific lineages (S. a. atra, which is found throughout the Northern Alps, and S. a. prenjensis, which appears sparsely along the Dinarides) and for the entire species, using occurrence points from a carefully curated database, climate data with 1 km2 spatial resolution and eight modelling techniques. We projected climatically suitable areas to 2070 under two climate scenarios (RCP2.6 and RCP8.5), using 24 general circulation models.For S. a. atra, under RCP2.6 scenario, we detected a 3% increase in the extent of climatically suitable areas in the Alps (although with low model agreement), yet a 6% decrease under the RCP8.5 scenario. For S. a. prenjensis, we detected a decrease in the extent of climatically suitable areas in the Dinarides between 7% and 45% (RCP2.6 and RCP8.5, respectively). The SDM predictions for the entire species were most in line with those of the S. a. atra model. Although climate variables were not equally strong in predicting the climatic suitability for both lineages, the minimum temperature of the coldest month revealed an important predictor for the entire species, with clear decreases in suitability towards higher temperature.All models reveal a considerable decrease in climate suitability throughout most of the range of S. atra, which is particularly visible in the Dinarides. We highlight the importance of considering intraspecific variation when modelling climate change impacts on geographically differentiated species whose populations vary in their climatic niche. We provide our study results (occurrence data and maps) via a web application that can be useful for guiding conservation efforts. [ABSTRACT FROM AUTHOR]

Published

2024

17. Thermal tolerance traits of individual corals are widely distributed across the Great Barrier Reef.

Author

Denis, Hugo, Bay, Line K., Mocellin, Véronique J. L., Naugle, Melissa S., Lecellier, Gaël, Purcell, Steven W., Berteaux-Lecellier, Véronique, and Howells, Emily J.

Subjects

*GLOBAL warming, *ACROPORA, *PHENOTYPIC plasticity, *REEFS, *CHLOROPHYLL, *CORALS, *CORAL bleaching

Abstract

Adaptation of reef-building corals to global warming depends upon standing heritable variation in tolerance traits upon which selection can act. Yet limited knowledge exists on heat-tolerance variation among conspecific individuals separated by metres to hundreds of kilometres. Here, we performed standardized acute heat-stress assays to quantify the thermal tolerance traits of 709 colonies of Acropora spathulata from 13 reefs spanning 1060 km (9.5° latitude) of the Great Barrier Reef. Thermal thresholds for photochemical efficiency and chlorophyll retention varied considerably among individual colonies both among reefs (approximately 6°C) and within reefs (approximately 3°C). Although tolerance rankings of colonies varied between traits, the most heat-tolerant corals (i.e. top 25% of each trait) were found at virtually all reefs, indicating widespread phenotypic variation. Reef-scale environmental predictors explained 12–62% of trait variation. Corals exposed to high thermal averages and recent thermal stress exhibited the greatest photochemical performance, probably reflecting local adaptation and stress pre-acclimatization, and the lowest chlorophyll retention suggesting stress pre-sensitization. Importantly, heat tolerance relative to local summer temperatures was the greatest on higher latitude reefs suggestive of higher adaptive potential. These results can be used to identify naturally tolerant coral populations and individuals for conservation and restoration applications. [ABSTRACT FROM AUTHOR]

Published

2024

18. Seed Dormancy and Germination Responses to Different Temperatures of Leptochloa chinensis (L.) Nees: A Case Study with 242 Populations Collected from Rice Fields in East China.

Author

An, Kai, Chen, Ling, Liu, Yiyang, Wei, Haiyan, and Chen, Guoqi

Subjects

*SEED dormancy, *AGRICULTURE, *PADDY fields, *GERMINATION, *BIOLOGY

Abstract

Leptochloa chinensis (L.) Nees is a troublesome rice weed. We collected 242 L. chinensis populations from rice fields in eastern China and studied the duration of seed dormancy and the seed germination ability at different temperatures. All L. chinensis populations studied exhibited seed dormancy. The periods required to reach 50% germination under optimal conditions were 31–235 days, with an average of 96 days. None of the populations germinated at 15 °C. Under constant temperatures of 20, 25, 30, and 35 °C, the average germination percentages of 242 populations were 0%, 71%, 79%, and 60% at 2 days after treatment (DAT), and were 56%, 84%, 88%, and 88% at 14 DAT, respectively. The duration of seed dormancy, as well as the germination ability of seeds, were significantly (p < 0.05) influenced by the agricultural region and the longitude and latitude of the collection locations. Under constant temperatures of 20 to 35 °C, the average germination percentages of seeds collected from transplanted rice fields were significantly higher than those collected from direct-seeded fields. This is the first study on seed germination biology of L. chinensis with multiple populations systematically collected from rice fields on a regional scale. [ABSTRACT FROM AUTHOR]

Published

2024

19. Comparative Transcriptomic Reveals Greater Similarities in Response to Temperature Than to Invasive Alien Predator in the Damselfly Ischnura elegans Across Different Geographic Scales.

Author

Wos, Guillaume, Palomar, Gemma, Marszałek, Marzena, and Sniegula, Szymon

Subjects

*INTRODUCED species, *GENE expression, *PHENOTYPIC plasticity, *GLOBAL warming, *CELLULAR signal transduction, *PREDATION

Abstract

The impact of global changes on populations may not be necessarily uniform across a species' range. Here, we aim at comparing the phenotypic and transcriptomic response to warming and an invasive predator cue in populations across different geographic scales in the damselfly Ischnura elegans. We collected adult females in two ponds in southern Poland (central latitude) and two ponds in southern Sweden (high latitude). We raised their larvae in growth chambers and exposed them to combination of temperature and a predator cue released by the crayfish Orconectes limosus. When larvae reached the prefinal larval stage, they were phenotyped for traits related to growth and size and collected for a gene expression analysis. High‐latitude populations exhibited greater phenotypic and transcriptomic variation than central‐latitude populations. Across latitudes and ponds, temperature generally increased growth rate and the predator cue decreased mass, but the effects of temperature were also pond‐specific. Comparison of the transcriptomic profiles revealed a greater overlap in the response to temperature across latitudes and ponds, especially for pathway‐related oxidative stress and sugar and lipid metabolism. The transcriptomic response to a predator cue and to the interaction temperature × predator cue was more pond‐specific and overlapped only for few genes and pathways related to cuticle, development and signal transduction. We demonstrated that central‐ and high‐latitude populations may partially respond through similar mechanisms to warming and, to a lower extent to a predator cue and to the interaction temperature × predator cue. For the predator cue and the interaction, the large fraction of ponds‐specific genes suggests local adaptation. We show that high‐latitude populations were generally more plastic at the phenotypic and transcriptomic level and may be more capable to cope with environmental changes than their central‐latitude counterparts. [ABSTRACT FROM AUTHOR]

Published

2024

20. Rampant intraspecific variation of plastid genomes in Gentiana section Chondrophyllae.

Author

Sun, Shan‐Shan, Pan, Zhi‐Yong, Fu, Yu, Wang, Shen‐Jue, and Fu, Peng‐Cheng

Subjects

*GENTIANA, *GENETIC code, *GENETIC speciation, *GENOMES, *SPECIES

Abstract

Exploring the level of intraspecific diversity in taxa experienced radiation is helpful to understanding speciation and biodiversity assembly. Gentiana section Chondrophyllae sensu lato encompasses more than 180 species and occupies more a half of species in the genus. In this study, we collected samples across the range of three species (Gentiana aristata, G. crassuloides and G. haynaldii) in section Chondrophyllae s.l., and recovered the intra‐species variation by comparing with closely related taxon. Using 25 newly sequenced plastid genomes together with previously published data, we compared structural differences, quantified the variations in plastome size, and measured nucleotide diversity in various regions. Our results showed that the plastome size variation in the three Chondrophyllae species ranged from 285 to 628 bp, and the size variation in LSC, IR and SSC ranged from 236 to 898 bp, 52 to 393 bp and 135 to 356 bp, respectively. Nucleotide diversity of plastome or any of the four regions was much higher than the control species. The average nucleotide diversity in plastomes of the three species ranged from 0.0010 to 0.0023 in protein coding genes, and from 0.0023 to 0.0061 in intergenic regions. More repeat sequence variations were detected within the three Chondrophyllae species than the control species. Various plastid sequence matrixes resulted in different backbone topology in two target species, showed uncertainty in phylogenetic relationship based inference. In conclusion, our results recovered that species of G. section Chondrophyllae s.l. has high intraspecific plastome variation, and provided insights into the radiation in this speciose lineage. [ABSTRACT FROM AUTHOR]

Published

2024

21. Genotypic variations appear in fine root morphological traits of Cryptomeria japonica trees grown in a common garden.

Author

Nakahata, Ryo, Azuma, Wakana A., Tanabe, Tomoko, Kawai, Kiyosada, and Hiura, Tsutom

Subjects

*CRYPTOMERIA japonica, *PLANT exudates, *ROOT growth, *BRANCHING ratios, *GENOTYPES, *ACCLIMATIZATION

Abstract

Fine root morphological traits regulate the belowground resource acquisition strategies of trees. Therefore, investigating genotypic variations isolated from environmental variations within tree species helps in understanding how genotypic backgrounds affect intragenerational tree acclimation to the growing environment. Thus, this study aimed to clarify the effects of genotypic variations on the fine root morphology of three types of Japanese cedar (Cryptomeria japonica), which were derived from different provenances but were grown in a common garden. In the three geographically different provenances of C. japonica stands (Yanase, Yoshino, and Yaku), fine root morphological traits, such as root length and diameter and specific root length (SRL), were measured for each root up to the 4th branching order. Yaku cedar exhibited root traits distinct from the other provenances, such as growing longer and thinner roots in 1st root order to enhance root surface area. In addition, the SRL patterns with root orders and higher root tissue density suggested a resource conservation strategy. Yanase cedar demonstrated a significantly higher root branching ratio and specific root tips than the other provenances, indicating a strategy for investing resources in absorptive roots. Although Yoshino cedar had traits similar to those of Yanase cedar or intermediate between Yanase and Yaku cedars, high aboveground production may be achieved through nutrient acquisition with root exudates instead of absorptive root growth. Genotypic variations appeared in fine root morphological traits of C. japonica trees, even when grown in the same environments, implying distinct resource acquisition strategies characterized by each provenance. [ABSTRACT FROM AUTHOR]

Published

2024

22. DNA Barcoding and Intronic-ORF Structure Analyses of Cultivated Pyropia yezoensis in China: The Genetic Impact under Climate Change.

Author

Huang, Guihua, Tian, Cuicui, Wei, Liangdi, Hu, Chuanming, Xu, Guangping, Zhou, Wei, and Deng, Yinyin

Subjects

MITOCHONDRIAL DNA, GENETIC variation, GENETIC barcoding, PHENOTYPES, CLIMATE change

Abstract

Pyropia yezoensis is the most widely cultivated and economically important alga. Affected by climate change, the cultivation of P. yezoensis has gradually migrated to the northern coast of China, increasing from 6.8% in 2019 to 19.5% in 2023. To date, the genetic impact of northern migration on cultivation resources has not been assessed and analyzed extensively. Here, DNA barcoding (rbcL and cox1) and the presence/absence of intronic-ORFs in mitochondrial regions (rnl and cox1) were applied to investigate genetic diversity in 44 P. yezoensis specimens from 17 aquaculture farms in China, with comparisons to Korean and Japanese cultivated resources. The lower intraspecific variation was 0.31% for the cox1 gene and 0.14% for the rbcL gene, with three haplotypes, indicating that intensive selection and breeding during cultivation had narrowed the germplasm genetic variation. The intron structure of mitochondrial regions showed that the cultivated resources had 17 phenotypes, and the northern specimens shared 35.3% of genotypes with the southern specimens, indicating that the cultivated P. yezoensis is expanding its cultivation ranges through north migration. Even with lower genetic diversity, the northern area of cultivation had already developed 17.6% site-specific specimens. The genetic diversity of cultivated P. yezoensis from the Northwest Pacific is also discussed. Our work provides a preliminary framework for P. yezoensis breeding and cultivation under climate change. [ABSTRACT FROM AUTHOR]

Published

2024

23. Intraspecific Variation of Transposable Elements Reveals Differences in the Evolutionary History of Fungal Phytopathogen Pathotypes.

Author

Nakamoto, Anne, Joubert, Pierre, and Krasileva, Ksenia

Subjects

Magnaporthe oryzae, comparative genomics, fungal plant pathogens, intraspecific variation, rice blast, transposable elements, DNA Transposable Elements, Magnaporthe, Genome, Fungal, Poaceae, Retroelements, Oryza, Triticum, Evolution, Molecular

Abstract

Transposable elements (TEs) contribute to intraspecific variation and play important roles in the evolution of fungal genomes. However, our understanding of the processes that shape TE landscapes is limited, as is our understanding of the relationship between TE content, population structure, and evolutionary history of fungal species. Fungal plant pathogens, which often have host-specific populations, are useful systems in which to study intraspecific TE content diversity. Here, we describe TE dynamics in five lineages of Magnaporthe oryzae, the fungus that causes blast disease of rice, wheat, and many other grasses. We identified differences in TE content across these lineages and showed that recent lineage-specific expansions of certain TEs have contributed to overall greater TE content in rice-infecting and Setaria-infecting lineages. We reconstructed the evolutionary histories of long terminal repeat-retrotransposon expansions and found that in some cases they were caused by complex proliferation dynamics of one element and in others by multiple elements from an older population of TEs multiplying in parallel. Additionally, we found evidence suggesting the recent transfer of a DNA transposon between rice- and wheat-infecting M. oryzae lineages and a region showing evidence of homologous recombination between those lineages, which could have facilitated such a transfer. By investigating intraspecific TE content variation, we uncovered key differences in the proliferation dynamics of TEs in various pathotypes of a fungal plant pathogen, giving us a better understanding of the evolutionary history of the pathogen itself.

Published

2023

24. Intraspecific diversity of multiple plant species shows no change across an urbanization gradient.

Author

Kim, Jenis S. and Noto, Akana E.

Abstract

There are well documented differences in species diversity along urban-rural gradients, but the effects of urbanization on diversity within species are less well known. Nevertheless, intraspecific diversity is an important element of biodiversity that allows for adaptation and can affect community and ecosystem function. The amount of intraspecific diversity may differ along an urbanization gradient if urban areas filter for a very narrow range of traits or, alternatively, if selection is weaker or more spatially variable in urban areas and allows for a broader range of traits. To test the relationship between urbanization, trait means and intraspecific diversity in forested environments, we measured two traits in eight herbaceous understory plant species from nine populations across an urbanization gradient in Baltimore, Maryland, USA. We found that while impervious cover, soil moisture and soil pH were associated with changes in mean trait values of plants in different locations, there was little consistent effect of these abiotic conditions on the amount of intraspecific diversity in traits. This suggests that while urban environments may select for different trait values than non-urban areas, the strength of environmental filtering is similar across the urbanization gradient. [ABSTRACT FROM AUTHOR]

Published

2025

25. Influence of body size on the dual role of isopod Porcellio scaber in seed dispersal and predation of the mycoheterotrophic plant Monotropastrum humile.

Author

Suetsugu, Kenji and Yamasaki, Michimasa

Abstract

Endozoochorous seed dispersal by invertebrates, although infrequently documented, is gaining attention for its feasibility in plants with small seeds. Recent studies have highlighted terrestrial isopods as potential dual agents, acting both as seed dispersers and predators, especially for herbaceous plants with fleshy fruits and tiny seeds. However, the determinants of these contrasting roles are not well understood.The present study explores intraspecific variation in Porcellio scaber, examining its dual role as a seed predator and disperser for Monotropastrum humile (Ericaceae), a plant with fleshy fruits and minute seeds (0.30–0.35 mm in length). We particularly focus on the impact of the sex and body size (5.44–11.99 mm) of the isopod P. scaber on seed dispersal or predation.Our results indicate a significant correlation between seed dispersal effectiveness and isopod body size, with some variation attributed to sex differences. Smaller P. scaber individuals predominantly prey on seeds, whereas larger individuals are more likely to facilitate seed dispersal, maintaining seed viability.Overall, our findings reveal that body size is a crucial factor in defining the ecological role of P. scaber. This challenges the conventional approach of using species‐level average data in seed dispersal studies, emphasising the need to consider intraspecific variations for a comprehensive understanding of seed dispersal. [ABSTRACT FROM AUTHOR]

Published

2024

26. First record of Leodice uschakovi (Wu, Sun & Liu, 2013) (Eunicidae, Polychaete) in Gulf of Mannar, southeast coast of India

Author

Sasmita Swain, Thais Kananda da Silva Souza, Joana Zanol, and Perumal Murugesan

Subjects

Intraspecific variation, Musal Tivu, new record, po, Biology (General), QH301-705.5

Abstract

We record the polychaete species Leodice uschakovi (Wu, Sun & Liu, 2013) for the first time from the two islands of Gulf of Mannar, India. Our find significantly expands the species’ geographic range, as it was previously documented only from waters of Hainan Island, southern China, and El Nido, Philippines. A large number of samples was collected, many more than by previous investigations, from dead corals. We provide detailed morphological data, including some previously overlooked key characters, as well as molecular data and intraspecific characters within the species.

Published

2024

27. Characterization, comparison, and phylogenetic analyses of chloroplast genomes of Euphorbia species

Author

Soo-Rang Lee, Ami Oh, and Dong Chan Son

Subjects

Chloroplast genome, Comparative analysis, Euphorbia, Intraspecific variation, Phylogenetic analysis, Medicine, Science

Abstract

Abstract The genus Euphorbia (Euphorbiaceae) has near-cosmopolitan distribution and serves as a significant resource for both ornamental and medicinal purposes. Despite its economic importance, Euphorbia's taxonomy has long been challenged by the intricate nature of morphological traits exhibiting high levels of convergence. While molecular markers are essential for phylogenetic studies, their availability for Euphorbia has been limited. To address this gap, we conducted comparative analyses focusing on the chloroplast (CP) genomes of nine Euphorbia species, incorporating three newly sequenced and annotated accessions. In addition, phylogenetic informativeness and nucleotide diversity were computed to identify candidate markers for phylogenetic analyses among closely related taxa in the genus. Our investigation revealed relatively conserved sizes and structures of CP genomes across the studied species, with notable interspecific variations observed primarily in non-coding regions and IR/SC borders. By leveraging phylogenetic informativeness and nucleotide diversity, we identified rpoB gene as the optimal candidate for species delimitation and shallow-level phylogenetic inference within the genus. Through this comprehensive analysis of CP genomes across multiple taxa, our study sheds light on the evolutionary dynamics and taxonomic intricacies of Euphorbia, offering valuable insights into its CP genome evolution and taxonomy.

Published

2024

28. 白垩纪中期贾氏缅甸蚊蝎蛉 （昆虫纲：长翅目）新材料.

Author

于佳淼, 张燕婕, 任东, and 杨弘茹

Abstract

The earliest fossil records of Bittacidae can date back to the Triassic, with a higher diversity during the Jurassic, and lower diversity in the Cretaceous. This paper based on four well-preserved new specimens of Bittacidae from the mid-Cretaceous Kachin amber in Northern Myanmar （Hukawng Valley）, revised the diagnosis of Burmobittacus Zhao, Bashkuev, Chen & Wang, 2017, supplemented the features of head, the basal part of the wing, and genitalia of Burmobittacus jarzembowskii Zhao, Bashkuev, Chen & Wang, 2017, indicated a significant difference in the intraspecific length ratio between radial sector（RS）and R2+3. This paper also compiled a fossil genus-level key for the Bittacidae and compared the wing differences among fossil groups of Bittacidae from Mesozoic. [ABSTRACT FROM AUTHOR]

Published

2024

29. Among‐population variation in drought responses is consistent across life stages but not between native and non‐native ranges.

Author

Nagy, Dávid U., Thoma, Arpad E., Al‐Gharaibeh, Mohammad, Callaway, Ragan M., Flory, S. Luke, Frazee, Lauren J., Hartmann, Matthias, Hensen, Isabell, Jandová, Kateřina, Khasa, Damase P., Lekberg, Ylva, Pal, Robert W., Samartza, Ioulietta, Shah, Manzoor A., Sheng, Min, Slate, Mandy, Stein, Claudia, Tsunoda, Tomonori, and Rosche, Christoph

Subjects

*CANADIAN horseweed, *ABIOTIC environment, *PLANT performance, *DROUGHTS

Abstract

Summary: Understanding how widespread species adapt to variation in abiotic conditions across their ranges is fundamental to ecology. Insight may come from studying how among‐population variation (APV) in the common garden corresponds with the environmental conditions of source populations. However, there are no such studies comparing native vs non‐native populations across multiple life stages.We examined APV in the performance and functional traits of 59 Conyza canadensis populations, in response to drought, across large aridity gradients in the native (North America) and non‐native (Eurasia) ranges in three experiments. Our treatment (dry vs wet) was applied at the recruitment, juvenile, and adult life stages.We found contrasting patterns of APV in drought responses between the two ranges. In the native range, plant performance was less reduced by drought in populations from xeric than mesic habitats, but such relationship was not apparent for non‐native populations. These range‐specific patterns were consistent across the life stages.The weak adaptive responses of non‐native populations indicate that they can become highly abundant even without complete local adaptation to abiotic environments and suggest that long‐established invaders may still be evolving to the abiotic environment. These findings may explain lag times in invasions and raise concern about future expansions. [ABSTRACT FROM AUTHOR]

Published

2024

30. Resource manipulation reveals interactive phenotype‐dependent foraging in free‐ranging lizards.

Author

Spiegel, Orr, Michelangeli, Marcus, Sinn, David L., Payne, Eric, Klein, Janine‐Rose V., Kirkpatrick, Jamie, Harbusch, Marco, and Sih, Andrew

Subjects

*DIETARY supplements, *POPULATION dynamics, *SPRING, *SOCIAL influence, *LIZARDS

Abstract

Recent evidence suggests that individuals differ in foraging tactics and this variation is often linked to an individual's behavioural type (BT). Yet, while foraging typically comprises a series of search and handling steps, empirical investigations have rarely considered BT‐dependent effects across multiple stages of the foraging process, particularly in natural settings.In our long‐term sleepy lizard (Tiliqua rugosa) study system, individuals exhibit behavioural consistency in boldness (measured as an individual's willingness to approach a novel food item in the presence of a threat) and aggressiveness (measured as an individual's response to an 'attack' by a conspecific dummy). These BTs are only weakly correlated and have previously been shown to have interactive effects on lizard space use and movement, suggesting that they could also affect lizard foraging performance, particularly in their search behaviour for food.To investigate how lizards' BTs affect their foraging process in the wild, we supplemented food in 123 patches across a 120‐ha study site with three food abundance treatments (high, low and no‐food controls). Patches were replenished twice a week over the species' entire spring activity season and feeding behaviours were quantified with camera traps at these patches. We tracked lizards using GPS to determine their home range (HR) size and repeatedly assayed their aggressiveness and boldness in designated assays.We hypothesised that bolder lizards would be more efficient foragers while aggressive ones would be less attentive to the quality of foraging patches. We found an interactive BT effect on overall foraging performance. Individuals that were both bold and aggressive ate the highest number of food items from the foraging array. Further dissection of the foraging process showed that aggressive lizards in general ate the fewest food items in part because they visited foraging patches less regularly, and because they discriminated less between high and low‐quality patches when revisiting them. Bolder lizards, in contrast, ate more tomatoes because they visited foraging patches more regularly, and ate a higher proportion of the available tomatoes at patches during visits.Our study demonstrates that BTs can interact to affect different search and handling components of the foraging process, leading to within‐population variation in foraging success. Given that individual differences in foraging and movement will influence social and ecological interactions, our results highlight the potential role of BT's in shaping individual fitness strategies and population dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

31. No evidence of sex-related differences in the diet of giant anteater in the Brazilian savanna.

Author

Santana, Tainara Galvao, Attias, Nina, Nascimento, Natalia Teixeira, Tibcherani, Mariáh, Rocha, Mauricio Martins, and Desbiez, Arnaud Léonard Jean

Subjects

*SAVANNAS, *WILDLIFE conservation, *CERRADOS, *FECES, *DIET, *ROADKILL

Abstract

Relationships between species and their habitat are strongly related to their feeding habits making its description essential for understanding the species' biology and plan their conservation. This study describes the diet of giant anteaters (Myrmecophaga tridactyla), a specialist insectivorous mammal, and evaluates potential sex-related intraspecific variation. We analyzed fecal matter from live individuals and from road-kills (N = 29 individuals) collected from October 2018 to April 2020 in the Cerrado savanna of Mato Grosso do Sul, Brazil. Anteater's diet was described by the relative frequency (RF; proportion of the sample mass represented by the prey item) and the frequency of occurrence (FO; proportion of samples in which the item was detected) of each prey item, which was classified to the lowest taxonomic level possible. The diet was composed of 14 morphotypes of termites (Blattodea), 28 morphotypes of ants (Formicidae) and grass seeds (Poacea). They fed primarily on termites (FO = 89.65%; RF = 75.85%) and ants (FO = 100%; RF = 23.08%), with no significant differences between sexes. Termites of the genus Syntermes (RF = 75.55%) represented most of the dietary sample mass, and ants of the genus Pheidole represented the most frequent item found in the samples (FO = 96.55%). M. tridactyla is a myrmecophagous specialist that consumes a great richness of prey species associated with multiple habitats. Hence, the preservation of the natural heterogeneity of the Cerrado landscape and their habitats is essential for the conservation of this vulnerable species. [ABSTRACT FROM AUTHOR]

Published

2024

32. Testing intra-species variation in allocation to growth and defense in rubber tree (Hevea brasiliensis).

Author

Rungwattana, Kanin, Kasemsap, Poonpipope, Phumichai, Thitaporn, Rattanawong, Ratchanee, and Hietz, Peter

Subjects

RESOURCE availability (Ecology), WATER efficiency, HEVEA, WOOD, TREE size

Abstract

Background: Plants allocate resources to growth, defense, and stress resistance, and resource availability can affect the balance between these allocations. Allocation patterns are well-known to differ among species, but what controls possible intra-specific trade-offs and if variation in growth vs. defense potentially evolves in adaptation to resource availability. Methods: We measured growth and defense in a provenance trial of rubber trees (Hevea brasiliensis) with clones originating from the Amazon basin. To test hypotheses on the allocation to growth vs. defense, we relate biomass growth and latex production to wood and leaf traits, to climate and soil variables from the location of origin, and to the genetic relatedness of the Hevea clones. Results: Contrary to expectations, there was no trade-off between growth and defense, but latex yield and biomass growth were positively correlated, and both increased with tree size. The absence of a trade-off may be attributed to the high resource availability in a plantation, allowing trees to allocate resources to both growth and defense. Growth was weakly correlated with leaf traits, such as leaf mass per area, intrinsic water use efficiency, and leaf nitrogen content, but the relative investment in growth vs. defense was not associated with specific traits or environmental variables. Wood and leaf traits showed clinal correlations to the rainfall and soil variables of the places of origin. These traits exhibited strong phylogenetic signals, highlighting the role of genetic factors in trait variation and adaptation. The study provides insights into the interplay between resource allocation, environmental adaptations, and genetic factors in trees. However, the underlying drivers for the high variation of latex production in one of the commercially most important tree species remains unexplained. [ABSTRACT FROM AUTHOR]

Published

2024

33. Can plants build their niche through modulation of soil microbial activities linked with nitrogen cycling? A test with Arabidopsis thaliana.

Author

Przybylska, Maria Stefania, Violle, Cyrille, Vile, Denis, Scheepens, J. F., Munoz, François, Tenllado, Álvaro, Vinyeta, Mariona, Le Roux, Xavier, and Vasseur, François

Subjects

*NITROGEN cycle, *ARABIDOPSIS thaliana, *FACTORIES, *PLANT biomass, *SOILS, *CYCLING competitions

Abstract

Summary: In natural systems, different plant species have been shown to modulate specific nitrogen (N) cycling processes so as to meet their N demand, thereby potentially influencing their own niche. This phenomenon might go beyond plant interactions with symbiotic microorganisms and affect the much less explored plant interactions with free‐living microorganisms involved in soil N cycling, such as nitrifiers and denitrifiers.Here, we investigated variability in the modulation of soil nitrifying and denitrifying enzyme activities (NEA and DEA, respectively), and their ratio (NEA : DEA), across 193 Arabidopsis thaliana accessions. We studied the genetic and environmental determinants of such plant–soil interactions, and effects on plant biomass production in the next generation.We found that NEA, DEA, and NEA : DEA varied c. 30‐, 15‐ and 60‐fold, respectively, among A. thaliana genotypes and were related to genes linked with stress response, flowering, and nitrate nutrition, as well as to soil parameters at the geographic origin of the analysed genotypes. Moreover, plant‐mediated N cycling activities correlated with the aboveground biomass of next‐generation plants in home vs away nonautoclaved soil, suggesting a transgenerational impact of soil biotic conditioning on plant performance.Altogether, these findings suggest that nutrient‐based plant niche construction may be much more widespread than previously thought. [ABSTRACT FROM AUTHOR]

Published

2024

34. Variation in the Floral Morphology of Prosthechea karwinskii (Orchidaceae), a Mexican Endemic Orchid at Risk.

Author

Santos-Escamilla, María Hipólita, Cruz-Lustre, Gabriela, Cuéllar-Martínez, Manuel, Lagunez-Rivera, Luicita, and Solano, Rodolfo

Subjects

FLORAL morphology, HABITAT destruction, ENDANGERED species, PRINCIPAL components analysis, CLUSTER analysis (Statistics)

Abstract

Prosthechea karwinskii is an orchid endemic to Mexico, threatened by the destruction of its habitat and the extraction of specimens to meet its demand for ornamental and religious use. Most of its populations, including the most locally abundant ones, are found in Oaxaca state. Variations in some floral traits have been observed in these populations. We implemented a morphometric analysis to assess their floral variation and identify the most significant characters in the morphological patterns of this orchid. Floral samples were collected from 17 populations of P. karwinskii in Oaxaca, as well as from specimens used as ornaments during Easter in an Oaxacan community (Zaachila), whose origin is unknown. Sampling of natural populations covered the environmental, geographic, and morphological variation of the species. We performed an analysis of variance (ANOVA), principal component analysis (PCA), canonical variate analysis (CVA), and cluster analysis, including 185 individuals and 45 variables (12 of them were discarded in the multivariate analyses due to high correlation). Characters of the column, lateral sepal, and labellum were most informative for the observed morphological patterns. Albarradas showed the greatest morphological differentiation, mainly due to the column. In general, individuals from the same locality tended to overlap more, especially the populations of Jaltianguis and Yahuiche, which were different from the geographically close population of Etla. Teposcolula presented the highest values in perianth characters, unlike Sola_Rancho Viejo. The specimens recovered from religious ornaments were morphologically more similar to those from Yanhuitlan and Etla. This morphometric analysis identified characters as potential taxonomic markers for P. karwinskii and related species, showing its potential to associate specimens of unknown origin with their probable geographical region. Our work encourages working on collaborative conservation strategies to ensure the long-term permanence of both the species and its traditional uses. [ABSTRACT FROM AUTHOR]

Published

2024

35. Characterization, comparison, and phylogenetic analyses of chloroplast genomes of Euphorbia species.

Author

Lee, Soo-Rang, Oh, Ami, and Son, Dong Chan

Subjects

*CHLOROPLAST DNA, *EUPHORBIA, *SPECIES, *EUPHORBIACEAE, *GENOMES

Abstract

The genus Euphorbia (Euphorbiaceae) has near-cosmopolitan distribution and serves as a significant resource for both ornamental and medicinal purposes. Despite its economic importance, Euphorbia's taxonomy has long been challenged by the intricate nature of morphological traits exhibiting high levels of convergence. While molecular markers are essential for phylogenetic studies, their availability for Euphorbia has been limited. To address this gap, we conducted comparative analyses focusing on the chloroplast (CP) genomes of nine Euphorbia species, incorporating three newly sequenced and annotated accessions. In addition, phylogenetic informativeness and nucleotide diversity were computed to identify candidate markers for phylogenetic analyses among closely related taxa in the genus. Our investigation revealed relatively conserved sizes and structures of CP genomes across the studied species, with notable interspecific variations observed primarily in non-coding regions and IR/SC borders. By leveraging phylogenetic informativeness and nucleotide diversity, we identified rpoB gene as the optimal candidate for species delimitation and shallow-level phylogenetic inference within the genus. Through this comprehensive analysis of CP genomes across multiple taxa, our study sheds light on the evolutionary dynamics and taxonomic intricacies of Euphorbia, offering valuable insights into its CP genome evolution and taxonomy. [ABSTRACT FROM AUTHOR]

Published

2024

36. Recruitment dynamics of juvenile salmonids: Comparisons among populations and with classic case studies.

Author

Matte, Jean‐Michel O., Fraser, Dylan J., and Grant, James W. A.

Subjects

*FISH stocking, *BROOK trout, *SUSTAINABLE fisheries, *FISHERY management, *POPULATION dynamics, *FIELD research, *CURVES

Abstract

Understanding recruitment, the process by which individuals are added to a population or to a fishery, is critical for understanding population dynamics and facilitating sustainable fisheries management. Important variation in recruitment dynamics is observed among populations, wherein some populations exhibit asymptotic productivity and others exhibit overcompensation (i.e., compensatory density‐dependence in recruitment). Our ability to understand this interpopulation variability in recruitment patterns is limited by a poor understanding of the underlying mechanisms, such as the complex interactions between density dependence, recruitment, and environment. Furthermore, most studies on recruitment are conducted using an observational design with long time series that are seldom replicated across populations in an experimentally controlled fashion. Without proper replication, extrapolations between populations are tenuous, and the underlying environmental trends are challenging to quantify. To address these issues, we conducted a field experiment manipulating stocking densities of juvenile brook trout Salvelinus fontinalis in three wild populations to show that these neighboring populations—which exhibit divergent patterns of density dependence due to environmental conditions—also have important differences in recruitment dynamics. Testing against four stock‐recruitment models (density independent, linear, Beverton‐Holt, and Ricker), populations exhibited ~twofold variation in asymptotic productivity, with no overcompensation following a Beverton‐Holt model. Although environmental variables (e.g., temperature, pH, depth, substrate) correlated with population differences in recruitment, they did not improve the predictive power in individual populations. Comparing our patterns of recruitment with classic salmonid case studies revealed that despite differences in the shape and parameters of the curves (i.e., Ricker vs. Beverton‐Holt), a maximum stocking density of about five YOY fish/m2 emerged. Higher densities resulted in very marginal increases in recruitment (Beverton‐Holt) or reduced recruitment due to overcompensation (Ricker). [ABSTRACT FROM AUTHOR]

Published

2024

37. Melanin‐based color variation in response to changing climates in snakes.

Author

Goldenberg, J., Bisschop, K., Bruni, G., Di Nicola, M. R., Banfi, F., and Faraone, F. P.

Subjects

*CLIMATE change adaptation, *NATRIX natrix, *HEAT radiation & absorption, *COLOR variation (Biology), *ULTRAVIOLET radiation

Abstract

Melanism, the process of heavier melanin deposition, can interact with climate variation at both micro and macro scales, ultimately influencing color evolution in organisms. While the ecological processes regulating melanin production in relation to climate have been extensively studied, intraspecific variations of melanism are seldom considered. Such scientific gap hampers our understanding of how species adapt to rapidly changing climates. For example, dark coloration may lead to higher heat absorption and be advantageous in cool climates, but also in hot environments as a UV or antimicrobial protection mechanism. To disentangle such opposing predictions, here we examined the effect of climate on shaping melanism variation in 150 barred grass snakes (Natrix helvetica) and 383 green whip snakes (Hierophis viridiflavus) across Italy. By utilizing melanistic morphs (charcoal and picturata in N. helvetica, charcoal and abundistic in H. viridiflavus) and compiling observations from 2002 to 2021, we predicted that charcoal morphs in H. viridiflavus would optimize heat absorption in cold environments, while offering protection from excessive UV radiation in N. helvetica within warm habitats; whereas picturata and abundistic morphs would thrive in humid environments, which naturally have a denser vegetation and wetter substrates producing darker ambient light, thus providing concealment advantages. While picturata and abundistic morphs did not align with our initial humidity expectations, the charcoal morph in N. helvetica is associated with UV environments, suggesting protection mechanisms against damaging solar radiation. H. viridiflavus is associated with high precipitations, which might offer antimicrobial protection. Overall, our results provide insights into the correlations between melanin‐based color morphs and climate variables in snake populations. While suggestive of potential adaptive responses, future research should delve deeper into the underlying mechanisms regulating this relationship. [ABSTRACT FROM AUTHOR]

Published

2024

38. Dynamic Trait Distribution as a Source for Shifts in Interaction Strength and Population Density.

Author

Jackson, Zachary and Xue, BingKan

Subjects

*POPULATION density, *PREDATION, *PHENOTYPIC plasticity, *POPULATION dynamics, *SPECIES diversity

Abstract

Intraspecific trait variation has been increasingly recognized as an important factor in determining species interactions and diversity. Eco-evolutionary models have studied the distribution of trait values within a population that changes over the generations as a result of selection and heritability. Nonheritable traits that can change within the lifetime, such as behavior, can cause trait-mediated indirect effects, often studied by modeling the dynamics of a homogeneous trait. Complementary to these approaches, we study the distribution of traits within a population and its dynamics on short timescales due to ecological processes. We consider several mechanisms by which the trait distribution can shift dynamically: phenotypic plasticity within each individual, differential growth among individuals, and preferential consumption by the predator. Through a simple predator-prey model that explicitly tracks the trait distribution within the prey, we identify the density and trait effects from the predator. We show that the dynamic shift of the trait distribution can lead to the modification of interaction strength between species and result in otherwise unexpected consequences. A particular example is the emergent promotion of the prey by the predator, where the introduction of the predator causes the prey population to increase rather than decrease. [ABSTRACT FROM AUTHOR]

Published

2024

39. Variation of the Tegmen and Cercus in Sinopodisma rostellocerca (Orthoptera: Acrididae: Melanoplinae) with Proposal of a New Synonym.

Author

Qiu, Renjie, Yan, Yuchen, Wang, Hanqiang, and Huang, Jianhua

Subjects

*ORTHOPTERA, *SYNONYMS, *BIOLOGISTS, *SPECIES, *ANGLES

Abstract

Simple Summary: The intraspecific variation of the tegmen and cercus in Sinopodisma rostellocerca was examined, the variation patterns were summarized, and the relationship between S. rostellocerca and S. hengshanica was discussed. The results showed that all types of variation in S. hengshanica fell into the range of variation in S. rostellocerca, leading to the disappearance of the boundary between the two species. Therefore, S. hengshanica was herein considered as a new junior synonym of S. rostellocerca. Intraspecific variation is ubiquitous from individual traits to population level and plays an important role in a variety of fields. However, it is often ignored by systematists and comparative evolutionary biologists. In view of the limited knowledge of intraspecific variation, morphology-based identification has hindered the recognition of species borders and led to a great number of problems in the field of taxonomy and systematics. In this study, the intraspecific variation of the tegmen and cercus in Sinopodisma rostellocerca was examined, the variation patterns were summarized and the relationship between S. rostellocerca and S. hengshanica was discussed. The results showed that the intraspecific variation in the tegmen and male cercus was mainly manifested in the length and shape of the apical margin and dorso- and ventro-apical angles; this substantial variation occurred not only among intrapopulation individuals but also between the different sides of the same individuals, and all types of variation in S. hengshanica fell into the range of variation in S. rostellocerca, leading to the disappearance of the boundary between the two species. Therefore, S. hengshanica was herein considered as a new junior synonym of S. rostellocerca. [ABSTRACT FROM AUTHOR]

Published

2024

40. Interrelationships and Environmental Influences of Photosynthetic Capacity and Hydraulic Conductivity in Desert Species Populus pruinosa.

Author

Zhang, Jinlong, Zhai, Juntuan, Wang, Jie, Si, Jianhua, Li, Jingwen, Ge, Xiaokang, and Li, Zhijun

Subjects

PEARSON correlation (Statistics), HYDRAULIC conductivity, PLANT habitats, RIPARIAN forests, WATER efficiency

Abstract

An improved understanding of the mechanisms underlying plant adaptation to habitat heterogeneity can be achieved by clarifying the climate-driving factors of the hydraulic and photosynthetic traits of different populations. With a focus on Populus pruinosa Schrenk, which is the predominant tree species in the desert riparian forests of the Tarim Basin, Xinjiang, this study investigated the hydraulic and photosynthetic trait relationships and their interactions with environmental factors in 11 P. pruinosa populations using a Pearson correlation analysis, plant trait networks, a redundancy analysis, and a least squares linear regression analysis. The results showed that the degree of variation in the hydraulic traits was higher than that in the photosynthetic traits. The net photosynthetic rate (Pn) showed a significantly positive correlation with leaf-specific conductivity (Kl) and the Huber value (Hv). The Hv exhibited a significantly positive correlation with the water-use efficiency and Kl, and the branch–leaf mass ratio significantly affected the hydraulic traits. The groundwater depth (GD) in natural P. pruinosa forest habitats ranged from 3.4 to 7.9 m. With an increase in the annual average temperature, the hydraulic conductivity of the xylem significantly increased; with an increase in GD, Pn and Kl significantly decreased. The temperature annual range, temperature seasonality (standard deviation), min temperature of the coldest month, and GD were significantly correlated with the diameter and average path length of the overall trait network parameters, and these environmental factors affected the coordination of the functional traits of P. pruinosa. [ABSTRACT FROM AUTHOR]

Published

2024

41. Response of stomatal density and size in Betula ermanii to contrasting climate conditions: The contributions of genetic and environmental factors.

Author

Cai, Yihan, Aihara, Takaki, Araki, Kyoko, Sarmah, Ragini, Tsumura, Yoshihiko, and Hirota, Mitsuru

Subjects

*STOMATA, *BIRCH, *PLANT adaptation, *PLANT transpiration, *PHYTOGEOGRAPHY, *PLANT-water relationships

Abstract

As plant distribution and performance are determined by both environmental and genetic factors, clarifying the contribution of these two factors is a key for understanding plant adaptation and predicting their distribution under ongoing global warming. Betula ermanii is an ideal species for such research because of its wide distribution across diverse environments. Stomatal density and size are crucial traits that plants undergo changes in to adapt to different environments as these traits directly influence plant photosynthesis and transpiration. In this study, we conducted a multi‐location common garden experiment using B. ermanii to (1) clarify the contribution of both environmental and genetic factors to the variation in stomatal density and size of B. ermanii, (2) demonstrate the differences in the plasticity of stomatal density and size among B. ermanii populations, and (3) understand how stomatal density and size of B. ermanii would respond to increased temperature and changing precipitation patterns. Genetic factors played a more significant role in stomatal size than environmental factors, suggesting that B. ermanii struggles to adjust its stomatal size in response to a changing environment. Our results also revealed a positive correlation between stomatal size plasticity and original habitat suitability, indicating that in B. ermanii populations in harsh environments exhibit lower adaptability to environmental shifts. Although stomatal density and size of B. ermanii showed the significant responses to increased temperature and shifting precipitation patterns, the response ranges of stomatal density and size to the environmental factors varied among populations. Our findings highlighted the interplay between genetic and environmental factors in determining the intraspecific variation in stomatal density and size in B. ermanii. This indicated that certain populations of B. ermanii exhibit limited stomatal plasticity and adaptability, which could directly affect photosynthesis and transpiration, suggesting potential population‐specific fitness implications for B. ermanii under future climate change. [ABSTRACT FROM AUTHOR]

Published

2024

42. Geographic variation in genetic composition, sexual communication and mating compatibility of the False Codling Moth, Thaumatotibia leucotreta for optimisation of area-wide control.

Author

Aigbedion-Atalor, Pascal, Heiduk, Annemarie, Upfold, Jennifer, Shuttleworth, Adam, Moore, Sean, Hill, Martin, Coombes, Candice, Bohman, Björn, and Farag El-Shafie, Hamadttu Abdel

Subjects

CODLING moth, GENETIC variation, REPRODUCTIVE isolation, AMPLIFIED fragment length polymorphism, HELIOTHIS zea, SPODOPTERA littoralis, PHYTOSANITATION

Abstract

Intraspecific variation in sex pheromones is a driver of reproductive isolation and speciation in insects. The False Codling Moth (FCM) Thaumatotibia leucotreta (Lepidoptera: Tortricidae) is a quarantine pest endemic to sub-Saharan Africa (SSA). The currently available precision control measures for FCM use female sex pheromone components to lure males into traps. However, the existing data on the composition of the female sex pheromone, especially the isomer ratios of the main pheromone component (E/Z)-8-dodecenyl acetate, are inconsistent for populations in SSA. This inconsistency led to speculation about possible reproductive isolation between geographically separated FCM populations and the potential need for local adjustment of pheromone-based FCM control tools. This, however, requires a comparative evaluation of geographic variation in FCM sexual communication and inter-population mating compatibility. We therefore investigated genetic isolation and mating compatibility between five geographically isolated FCM populations in South Africa and analysed the ratio of (E)- and (Z)-8-dodecenyl acetate in females from these populations. The five studied populations were found to form three genetically distinct groups with high genetic distances between each other. Mating compatibility tests showed that mating is possible across these groups, however, males preferred females of their own population when given choices; without a choice, males successfully mated with and transferred spermatophores to females from all other populations. The ratio of (E)- and (Z)-8-dodecenyl acetate was similar (c. 4:1) across the populations, indicating that this main female pheromone component does not cause the observed intra-population mating preferences. It remains to be investigated if qualitative/quantitative variation in other sex pheromone components influences intra-population recognition in South African FCM, providing a base for the development of regionally-specific lures for area-wide control programmes. [ABSTRACT FROM AUTHOR]

Published

2024

43. Variation in RNA interference sensitivity in the southern pine beetle, Dendroctonus frontalis (Coleoptera: Curculionidae).

Author

Kyre, Bethany R, Dupuis, Julian R, Zúñiga, Gerardo, and Rieske, Lynne K

Subjects

*RNA interference, *SMALL interfering RNA, *GENETIC translation, *CURCULIONIDAE, *GENETIC variation, *CUCUMBER mosaic virus, *PINE

Abstract

Intraspecific genetic variation underpins many evolutionary processes and phenomena. For species considered pests, the dynamics of how genetic variation is distributed geographically take on a greater importance, because they can impact pest-management strategies directly. This is particularly true when management strategies are genetic in nature, such as population manipulation via RNA interference (RNAi; a naturally occurring antiviral response that disrupts translation of messenger RNAs into proteins to silence genes). Using RNAi for gene silencing is highly species specific; however, the efficacy of this approach in geographically distinct populations of widespread pest species has not been evaluated comprehensively. Here, we present a preliminary study evaluating differential susceptibility of geographically disparate populations of southern pine beetle, Dendroctonus frontalis , to RNAi. Although the efficacy of RNAi has been demonstrated in localized populations, D. frontalis has a broad distribution across North and Central America and is expanding its range owing to climate change. We observe differences in response between and within geographically distinct populations from its core range and recently expanded range. Our findings have broad implications for the use of RNAi as a management tool in widely distributed species and highlight the need for a deeper understanding of intraspecific genetic variation in this species and others. [ABSTRACT FROM AUTHOR]

Published

2024

44. Aphid-Induced Volatiles and Subsequent Attraction of Natural Enemies Varies among Sorghum Cultivars.

Author

Russavage, Emily M., Hewlett, Jeremy A., Grunseich, John M., Szczepaniec, Adrianna, Rooney, William L., Helms, Anjel M., and Eubanks, Micky D.

Subjects

*SORGHUM, *CULTIVARS, *INSECT pests, *GENETIC variation, *APHIDS, *PLANT defenses

Abstract

The production of herbivore-induced plant volatiles (HIPVs) is a type of indirect defense used by plants to attract natural enemies and reduce herbivory by insect pests. In many crops little is known about genotypic variation in HIPV production or how this may affect natural enemy attraction. In this study, we identified and quantified HIPVs produced by 10 sorghum (Sorghum bicolor) cultivars infested with a prominent aphid pest, the sorghum aphid (Melanaphis sorghi Theobald). Volatiles were collected using dynamic headspace sampling techniques and identified and quantified using GC-MS. The total amounts of volatiles induced by the aphids did not differ among the 10 cultivars, but overall blends of volatiles differed significantly in composition. Most notably, aphid herbivory induced higher levels of methyl salicylate (MeSA) emission in two cultivars, whereas in four cultivars, the volatile emissions did not change in response to aphid infestation. Dual-choice olfactometer assays were used to determine preference of the aphid parasitoid, Aphelinus nigritus, and predator, Chrysoperla rufilabris, between plants of the same cultivar that were un-infested or infested with aphids. Two aphid-infested cultivars were preferred by natural enemies, while four other cultivars were more attractive to natural enemies when they were free of aphids. The remaining four cultivars elicited no response from parasitoids. Our work suggests that genetic variation in HIPV emissions greatly affects parasitoid and predator attraction to aphid-infested sorghum and that screening crop cultivars for specific predator and parasitoid attractants has the potential to improve the efficacy of biological control. [ABSTRACT FROM AUTHOR]

Published

2024

45. Phenotypic and genetic divergence in a cold‐adapted grasshopper may lead to lineage‐specific responses to rapid climate change.

Author

Meza‐Joya, Fabio Leonardo, Morgan‐Richards, Mary, and Trewick, Steven A.

Subjects

*CLIMATE change, *PHYLOGEOGRAPHY, *GRASSHOPPERS, *PHENOTYPES, *GLOBAL warming, *INTERGLACIALS

Abstract

Aim: Species responses to global warming will depend on intraspecific diversity, yet studies of factors governing biogeographic patterns of variability are scarce. Here, we investigate the evolutionary processes underlying genetic and phenotypic diversity in the flightless and cold‐adapted grasshopper Sigaus piliferus, and project its suitable space in time. Location: Te Ika‐a‐Māui Aotearoa—North Island of New Zealand. Methods: We used mitochondrial sequences to investigate population connectivity and demographic trends using phylogeographic tools and neutrality statistics. Metric data were used to document phenotypic variation using naïve clustering. We used niche metrics to assess intraspecific niche variation, and niche modelling to investigate suitability under past and future scenarios. Multiple matrix regressions with randomization explored the processes contributing to phenotypic differentiation among grasshopper populations. Results: Niche models and demographic analyses suggest suitable space for this grasshopper was more restricted during glacial than interglacial stages. Genealogical relationships among ND2 haplotypes revealed a deep north–south split partly concordant with phenotypic and niche variation, suggesting two ecotypes that have mixed during recolonisation of the central volcanic region. Multiple matrix regressions with randomization indicate a link between climate and phenotypic differentiation inferred from leg and pronotum dimensions but not pronotum shape. Niche projections predict severe habitat reduction due to climate warming. Main conclusions: The current distribution and intraspecific diversity of S. piliferus reflect complex biogeographical scenarios consistent with Quaternary climates and volcanism. Phenotypic divergence appears adaptive. Current levels of genetic and phenotypic variation suggest adaptive potential, yet the pace of anthropogenic warming over the next 50 years could result in small populations that may collapse before adapting. Differences in niche features between diverging intraspecific lineages suggest distinct responses to climate change, and this has implications for prioritising conservation actions and management strategies. [ABSTRACT FROM AUTHOR]

Published

2024

46. Genome Size Variation in Sesamum indicum L. Germplasm from Niger.

Author

Takvorian, Najat, Zangui, Hamissou, Naino Jika, Abdel Kader, Alouane, Aïda, and Siljak-Yakovlev, Sonja

Subjects

*GENOME size, *SESAME, *GERMPLASM, *OILSEED plants, *GENETIC variation, *ALTERNATIVE crops

Abstract

Sesamum indicum L. (Pedaliaceae) is one of the most economically important oil crops in the world, thanks to the high oil content of its seeds and its nutritional value. It is cultivated all over the world, mainly in Asia and Africa. Well adapted to arid environments, sesame offers a good opportunity as an alternative subsistence crop for farmers in Africa, particularly Niger, to cope with climate change. For the first time, the variation in genome size among 75 accessions of the Nigerien germplasm was studied. The sample was collected throughout Niger, revealing various morphological, biochemical and phenological traits. For comparison, an additional accession from Thailand was evaluated as an available Asian representative. In the Niger sample, the 2C DNA value ranged from 0.77 to 1 pg (753 to 978 Mbp), with an average of 0.85 ± 0.037 pg (831 Mbp). Statistical analysis showed a significant difference in 2C DNA values among 58 pairs of Niger accessions (p-value < 0.05). This significant variation indicates the likely genetic diversity of sesame germplasm, offering valuable insights into its possible potential for climate-resilient agriculture. Our results therefore raise a fundamental question: is intraspecific variability in the genome size of Nigerien sesame correlated with specific morphological and physiological traits? [ABSTRACT FROM AUTHOR]

Published

2024

47. House Sparrows Passer domesticus increase in body size and dorsal feather insulation along a Himalayan elevational gradient.

Author

Bala, Renu, Kumar, R. Suresh, Gokhale, Pranav, Mohan, Dhananjai, and Barve, Sahas

Subjects

FEATHERS, BODY size, ENGLISH sparrow, SPARROWS, LOW temperatures, BIRD migration, ALTITUDES

Abstract

Copyright of Journal of Field Ornithology is the property of Resilience Alliance and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

48. Intraspecific differences in the photosynthetic responses to chloroplast CO2 and photon flux density at different leaf temperatures of four grapevine cultivars grown in common outdoor conditions.

Author

Greer, Dennis H.

Subjects

LEAF temperature, ACTINIC flux, GRAPES, PHOTON flux, CULTIVARS, AUSTRALIAN wines, CHARDONNAY, SYRAH

Abstract

Comparative measurements of four Vitis vinifera cultivars were undertaken to assess assimilation tolerance to the high growth temperatures currently pervading Australian and other wine growing regions. The cultivars, cvs. Chardonnay, Merlot, Semillon, and Shiraz, were all grown in common growth conditions, and an hypothesis promulgated genotypic variation in assimilation and in the leaf temperature dependency. Assimilation responses to varying light intensity and to varying chloroplast CO2 at a range of leaf temperatures (15–45°C) were measured in leaves of each cultivar in mid‐summer. Light response curves revealed marked genotype differences in maximum assimilation, but temperature effects also varied. Semillon leaves were most sensitive to temperature, with marked and steep differences in assimilation at different temperatures while Chardonnay and Merlot were least sensitive, with relatively flat responses. There were also marked cultivar differences in response to CO2 and significant effects of leaf temperature. CO2‐saturated assimilation varied markedly, with Semillon and Merlot leaves most responsive to temperature, although there were differences in optimum temperatures and maximum rates. Chardonnay leaves remained least tolerant, with lowest rates of assimilation across most temperatures. Assimilation at 45°C also separated the cultivars and two cultivars had higher rates than at 15°C while Chardonnay and Merlot leaves had higher rates at 15°C. There were no cultivar differences in the temperature dependency of Ribulose 1,5‐bisphosphate (RuBP) carboxylation, but Semillon had a much steeper temperature dependency on RuBP regeneration than the other cultivars. All these responses confirmed the hypothesis and concluded the high‐temperature tolerance of Semillon and Shiraz and the poor adaptability of Chardonnay and possibly Merlot to perform in the current high‐temperature growth conditions. [ABSTRACT FROM AUTHOR]

Published

2024

49. Effects of metal amendment and metalloid supplementation on foliar defences are plant accession-specific in the hyperaccumulator Arabidopsis halleri.

Author

Putra, Rocky, Tölle, Max, Krämer, Ute, and Müller, Caroline

Abstract

Soil pollution by metals and metalloids as a consequence of anthropogenic industrialisation exerts a seriously damaging impact on ecosystems. However, certain plant species, termed hyperaccumulators, are able to accumulate extraordinarily high concentrations of these metal(loid)s in their aboveground tissues. Such hyperaccumulation of metal(loid)s is known to act as a defence against various antagonists, such as herbivores and pathogens. We investigated the influences of metal(loid)s on potential defence traits, such as foliar elemental, organic and mechanical defences, in the hyperaccumulator plant species Arabidopsis halleri (Brassicaceae) by artificially amending the soil with common metallic pollutants, namely cadmium (Cd) and zinc (Zn). Additionally, unamended and metal-amended soils were supplemented with the metalloid silicon (Si) to study whether Si could alleviate metal excess. Individuals originating from one non-/low- and two moderately to highly metal-contaminated sites with different metal concentrations (hereafter called accessions) were grown for eight weeks in a full-factorial design under standardised conditions. There were significant interactive effects of metal amendment and Si supplementation on foliar concentrations of certain elements (Zn, Si, aluminium (Al), iron (Fe), potassium (K) and sulfur (S), but these were accession-specific. Profiles of glucosinolates, characteristic organic defences of Brassicaceae, were distinct among accessions, and the composition was affected by soil metal amendment. Moreover, plants grown on metal-amended soil contained lower concentrations of total glucosinolates in one of the accessions, which suggests a potential trade-off between inorganic defence acquisition and biosynthesis of organic defence. The density of foliar trichomes, as a proxy for the first layer of mechanical defence, was also influenced by metal amendment and/or Si supplementation in an accession-dependent manner. Our study highlights the importance of examining the effects of co-occurring metal(loid)s in soil on various foliar defence traits in different accessions of a hyperaccumulating species. [ABSTRACT FROM AUTHOR]

Published

2024

50. Ecotypic differentiation of leaf silicon concentration in the grass Brachypodium hybridum along a rainfall gradient

Author

Susanne Kurze, Jinyu Ouyang, Florian Gade, Ofir Katz, Jörg Schaller, and Johannes Metz

Subjects

silicon concentrations, rainfall gradient, intraspecific variation, Mediterranean rangelands, local adaptation, slope exposure, Plant culture, SB1-1110

Abstract

Ecotypic differentiation, reflected in substantial trait differences across populations, has been observed in various plant species distributed across aridity gradients. Nevertheless, ecotypic differentiation in leaf silicon concentration, known to alleviate drought stress in plants, remained hardly explored. Here, we provide a systematic test for ecotypic differentiation in leaf silicon concentration along two aridity gradients in the grass Brachypodium hybridum in Israel. Seed material was sampled in 15 sites along a macroclimatic aridity gradient (89 – 926 mm mean annual rainfall) and from corresponding north (moister) and south (more arid) exposed slopes (microclimatic gradient) at similar altitudes (mean north: 381 m a.s.l., mean south: 385 m a.s.l.). Plants were subsequently grown under common conditions and their leaf silicon concentration was analysed. Leaf silicon concentration increased with increasing aridity across the macroclimatic gradient, but did not differ between north and south slopes. The higher leaf silicon concentrations under more arid conditions can enhance the ability of plants to cope with more arid conditions by two mutually not exclusive mechanisms: (i) withstanding drought by reducing water loss and increasing water uptake or (ii) escaping drought by facilitating fast growth. Our study highlights that leaf silicon concentration contributes to ecotypic differentiation in annual grasses along macroclimatic aridity gradients.

Published

2024