Science Enabled by Specimen Data

Tu, W., Y. Du, Y. E. Stuart, Y. Li, Y. Wang, Q. Wu, B. Guo, and X. Liu. 2024. Biological invasion is eroding the unique assembly of island herpetofauna worldwide. Biological Conservation 300: 110853. https://doi.org/10.1016/j.biocon.2024.110853

Island ecosystems have significant conservation value owing to their higher endemic biotas. Moreover, studies of regional communities that compare differences in species composition (species dissimilarity) among islands and the mainland suggest that community assembly on islands is different from that on the mainland. However, the uniqueness of island biotic assembly has been little studied at the global scale, nor have phylogenetic information or alien species been considered in these patterns. We evaluate taxonomic and phylogenetic change from one community to the next, focusing on differences in species composition between mainland-mainland (M-M) pairs compared to differences between mainland-island pairs (M-I) and between island-island pairs (I-I), using herpetofauna on islands and adjacent mainland areas worldwide. Our analyses detect greater taxonomic and phylogenetic dissimilarity for M-I and I-I comparisons than predicted by M-M model, indicating different island herpetofauna assembly patterns compared with mainland counterparts across the world. However, this higher M-I dissimilarity has been significantly decreased after considering alien species. Our results provide global evidence on the importance of island biodiversity conservation from the aspect of both the taxonomic and phylogenetic uniqueness of island biotic assembly.

Calleja-Satrustegui, A., A. Echeverría, I. Ariz, J. Peralta de Andrés, and E. M. González. 2024. Unlocking nature’s drought resilience: a focus on the parsimonious root phenotype and specialised root metabolism in wild Medicago populations. Plant and Soil. https://doi.org/10.1007/s11104-024-06943-w

Abstract  Background and aims Crop wild relatives, exposed to strong natural selection, exhibit effective tolerance traits against stresses. While an aggressive root proliferation phenotype has long been considered advantageous for a range of stresses, it appears to be counterproductive under drought due to its high metabolic cost. Recently, a parsimonious root phenotype, metabolically more efficient, has been suggested to be better adapted to semiarid environments, although it is not clear that this phenotype is a trait exhibited by crop wild relatives. Methods Firstly, we analysed the root phenotype and carbon metabolism in four Medicago crop wild relatives adapted to a semiarid environment and compared them with the cultivated M. truncatula Jemalong (A17). Secondly, we exposed the cultivated (probably the least adapted genotype to aridity) and the wild (the most common one in arid zones) M. truncatula genotypes to water deficit. The carbon metabolism response in different parts of their roots was analysed. Results A reduced carbon investment per unit of root length was a common trait in the four wild genotypes, indicative of an evolution towards a parsimonious root phenotype. During the water deficit experiment, the wild M. truncatula showed higher tolerance to drought, along with a superior ability of its taproot to partition sucrose and enhanced capacity of its fibrous roots to maintain sugar homeostasis. Conclusion A parsimonious root phenotype and the spatial specialization of root carbon metabolism represent two important drought tolerance traits. This work provides relevant findings to understand the response of Medicago species roots to water deficit.

Noel, A., D. R. Schlaepfer, B. J. Butterfield, M. C. Swan, J. Norris, K. Hartwig, M. C. Duniway, and J. B. Bradford. 2024. Most Pinyon–Juniper Woodland Species Distributions Are Projected to Shrink Rather Than Shift Under Climate Change. Rangeland Ecology & Management. https://doi.org/10.1016/j.rama.2024.09.002

Pinyon–juniper (PJ) woodlands are among the most widespread ecosystems in rangelands of western North America, supporting diverse wildlife habitat, recreation, grazing, and cultural/spiritual enrichment. Anticipating future distribution shifts under changing climate will be critical to climate adaptation and conservation efforts in these ecosystems. Here, we evaluate drivers of PJ tree species’ distributions and project changes in response to future climate change. We developed species distribution models with dryland-focused predictors to project environmental suitability changes across the entirety of three pinyon and six juniper species ranges. We identify areas of robust suitability change by combining suitability projections from multiple emissions scenarios and time periods. PJ species’ suitabilities respond to many temperature and moisture covariates expected to change in the future. Projected responses among PJ species are highly variable, ranging from modest declines with concurrent gains for overall little net change to wide-ranging declines with no gains for overall range contractions. Environmental suitability is projected to decline broadly across the arid United States Southwest and remain relatively stable across the northern Great Basin and Colorado Plateau. Our results suggest unique responses of PJ species to future climate change. We found that species were projected to experience more losses than gains in suitability, for overall range shrinks rather than shifts. Land managers have the capacity to increase woodland resilience to drought, and our results can inform rangeland-wide management planning and conservation efforts in PJ woodlands.

Li, X.-D., Y. Chen, C.-L. Zhang, J. Wang, X.-J. Song, X.-R. Zhang, Z.-H. Zhu, and G. Liu. 2024. Assessing the climatic niche changes and global invasion risk of Solanum elaeagnifolium in relation to human activities. Science of The Total Environment 954: 176723. https://doi.org/10.1016/j.scitotenv.2024.176723

As an invasive plant, Solanum elaeagnifolium has posed a serious threat to agriculture and natural ecosystems worldwide. In order to better manage and limit its spread, we established niche models by combining distribution information and climate data from the native and invasive ranges of S. elaeagnifolium to analyze its niche changes during its colonization. Additionally, we evaluated its global invasion risk. Our results showed that the distribution of S. elaeagnifolium is affected by temperature, precipitation, altitude, and human activities. Solanum elaeagnifolium exhibits different degrees of niche conservatism and niche shift in different invasion ranges.During the global invasion of S. elaeagnifolium, both the niche shift and conservatism were observed, however, niche shift was particularly significant due to the presence of unoccupied niches (niche unfilling). Solanum elaeagnifolium generally occupied a relatively stable niche. However, a notable expansion was observed primarily in Europe and China. In Australia and Africa, its niche largely remains a subset of its native niche. Compared to the niche observed in its native range, its realized niche in China and Europe has shifted toward lower temperature and higher precipitation levels. Conversely, in Africa, the niche has shifted toward lower precipitation levels, while in Australia, it has shifted toward higher temperature. Our model predicted that S. elaeagnifolium has high invasion potential in many countries and regions. The populations of S. elaeagnifolium in China and Africa have reached the adapted stage, while the populations in Australia and Europe are currently in the stabilization stage. In addition, our research suggests that the potential distribution of S. elaeagnifolium will expand further in the future as the climate warms. All in all, our study suggests that S. elaeagnifolium has high potential to invade globally. Due to its high invasive potential, global surveillance and preventive measures are necessary to address its spread.

Howard, C. C., P. Kamau, H. Väre, L. Hannula, A. Juslén, J. Rikkinen, and E. B. Sessa. 2024. Historical Biogeography of Sub‐Saharan African Spleenworts. Journal of Biogeography. https://doi.org/10.1111/jbi.15019

ABSTRACTAimFerns are globally distributed, yet the number of studies examining the historical evolution of African taxa is relatively low. Investigation of the evolution of African fern diversity is critical in order to understand patterns and processes that have global relevance (e.g., the pantropical diversity disparity [PDD] pattern). This study aims to examine when and from where a globally distributed fern lineage arrived in sub‐Saharan Africa, to obtain a better understanding of potential processes contributing to patterns of diversity across the region.LocationGlobal, sub‐Saharan Africa.TaxonAsplenium (Aspleniaceae).MethodsWe analysed five loci from 537 Asplenium taxa using a maximum likelihood (IQ‐Tree) phylogenetic framework. For age estimation, we performed penalised likelihood as implemented in treePL, and executed a Bayesian analysis using BEAST. Biogeographical analyses were carried out using BioGeoBEARS.ResultsMost dispersals into Africa occurred within the last ~55 myr, with the highest diversity of sub‐Saharan African taxa concentrated in two clades, each of which descended from an Asian ancestor. Additional dispersals to sub‐Saharan Africa can be found throughout the phylogeny. Lastly, potential cryptic species diversity exists within Asplenium as evidenced by several polyphyletic taxa.Main ConclusionsWe recover multiple dispersals of Asplenium to sub‐Saharan Africa, with two major lineages likely diversifying after arrival.

Kosch, T. A., A. J. Crawford, R. Lockridge Mueller, K. C. Wollenberg Valero, M. L. Power, A. Rodríguez, L. A. O’Connell, et al. 2024. Comparative analysis of amphibian genomes: An emerging resource for basic and applied research. Molecular Ecology Resources. https://doi.org/10.1111/1755-0998.14025

Amphibians are the most threatened group of vertebrates and are in dire need of conservation intervention to ensure their continued survival. They exhibit unique features including a high diversity of reproductive strategies, permeable and specialized skin capable of producing toxins and antimicrobial compounds, multiple genetic mechanisms of sex determination and in some lineages, the ability to regenerate limbs and organs. Although genomic approaches would shed light on these unique traits and aid conservation, sequencing and assembly of amphibian genomes has lagged behind other taxa due to their comparatively large genome sizes. Fortunately, the development of long‐read sequencing technologies and initiatives has led to a recent burst of new amphibian genome assemblies. Although growing, the field of amphibian genomics suffers from the lack of annotation resources, tools for working with challenging genomes and lack of high‐quality assemblies in multiple clades of amphibians. Here, we analyse 51 publicly available amphibian genomes to evaluate their usefulness for functional genomics research. We report considerable variation in genome assembly quality and completeness and report some of the highest transposable element and repeat contents of any vertebrate. Additionally, we detected an association between transposable element content and climatic variables. Our analysis provides evidence of conserved genome synteny despite the long divergence times of this group, but we also highlight inconsistencies in chromosome naming and orientation across genome assemblies. We discuss sequencing gaps in the phylogeny and suggest key targets for future sequencing endeavours. Finally, we propose increased investment in amphibian genomics research to promote their conservation.

Parys, K., K. Huntzinger, A. Seshadri, and T. Rashid. 2024. First record of <i>Xenoglossa </i>(<i>Cemolobus</i>) <i>ipomoeae </i>(Robertson, 1891) in Mississippi: Distribution, ecology, and conservation implications. Journal of Melittology. https://doi.org/10.17161/jom.vi120.22418

The first record of Xenoglossa (Cemolobus) ipomoeae (Robertson, 1891) (Apidae: Eucerini) for the state of Mississippi, USA is reported. This species is a rarely encountered specialist bee that is known to forage on Ipomoea pandurata (L.) G.F.W. Mey (Convolvulaceae), potentially along with other closely related plants in the genus Ipomoea. A single female was collected in Bolivar County during 2017 that a represents a significant southwestern range expansion for this bee species.

Frateles, L. E. F., G. R. G. Tavares, G. Nakamura, N. J. da Silva, L. C. Terribile, and J. A. F. Diniz‐Filho. 2024. The Interaction Between the Linnean and Darwinian Shortfalls Affects Our Understanding of the Evolutionary Dynamics Driving Diversity Patterns of New World Coralsnakes. Journal of Biogeography. https://doi.org/10.1111/jbi.15014

Aim In this study, we sought to understand how the Linnean shortfall (i.e., the lack of knowledge about species taxonomy) interacts with the Darwinian shortfall (i.e., the lack of knowledge about phylogenetic relationships among species), which potentially jeopardises geographical patterns in estimates of speciation rates.LocationNew World.TaxonCoralsnakes (Serpentes: Elapidae).MethodsWe created an index of taxonomic uncertainty (ITU) that measures the likelihood of current species being split after undergoing future taxonomic revisions. The ITU was used in simulations where species with higher taxonomic uncertainty had a higher likelihood of having their phylogenetic branches split, generating new hypothetical species along their geographic ranges. We estimated the speciation rates before and after the split of taxonomically uncertain species.ResultsWe found that a high number of coralsnake species display substantial taxonomic uncertainty, positively correlated with the latitude of the species' geographical range centroid. The estimated speciation rates based on currently available data have a weak relationship with latitude. However, after incorporating taxonomic uncertainty into the phylogeny, we detect a higher positive correlation between speciation rate and latitude.Main ConclusionsThe observed change in speciation rates following the incorporation of taxonomic uncertainty highlights how such uncertainty can undermine the empirical evaluation of geographical patterns in speciation rates, revealing an interaction between the latitudinal taxonomic gradient and the latitudinal diversity gradient. Given that taxonomic changes can alter the number of species recognised as valid over time, our study highlights the need to incorporate taxonomic uncertainty into macroecological and macroevolutionary studies, enhancing the robustness of patterns inferred from these data.

López-Miranda, D. Y., R. Reyes Chilpa, G. A. Magos, J. G. Ávila Acevedo, S. L. Guzmán-Gutiérrez, E. Martínez-Ambriz, M. G. Campos-Lara, et al. 2023. Cinco especies vegetales antiinflamatorias del Libellus de Medicinalibus Indorum Herbis de México, 1552: Una revisión botánica, química y farmacológica. Acta Botanica Mexicana. https://doi.org/10.21829/abm130.2023.2137

Antecedentes y Objetivos: El Libellus de Medicinalibus Indorum Herbis (Librito de las Hierbas Medicinales de los Indios) incluye 185 plantas bellamente ilustradas, 131 interpretadas a especie. Solo algunas se han investigado respecto a las propiedades que ahí se les atribuyen. Por ello, seleccionamos seis plantas utilizadas como antiinflamatorias. Los objetivos de este trabajo fueron corroborar su identidad botánica y determinar si la información química y farmacológica contemporánea respalda sus antiguas aplicaciones terapéuticas.Métodos: Para proponer las especies a las cuales posiblemente corresponden las ilustraciones de las plantas elegidas, estas se compararon con especímenes del Herbario MEXU. Se revisó en bases de datos la fitoquímica y actividad antiinflamatoria de dichas especies.Resultados clave: Las seis plantas seleccionadas del códice corresponden a cinco especies, pues consideramos que las plantas tetzmitl (Folium 13r) y texiyotl (Folium 22v) son la misma especie: Sedum dendroideum. Los extractos de las hojas de S. dendroideum han presentado actividad antiinflamatoria en diferentes modelos farmacológicos debido a derivados del flavonoide kaempferol, lo cual respalda sus antiguas aplicaciones médicas para tratar la cara, ojos y boca hinchados. En el Folium 48v se prescriben tzihuac copalli y tlacoecapatli cuando “se hincha la vena pinchada por la flebotomía”. Concordamos en que son Bursera bipinnata y Litsea glaucescens, respectivamente. A la fecha, no se han investigado sus posibles propiedades antiinflamatorias, pero sí las presentan otras especies relacionadas. El Folium 22v recomienda tememetla y tequixquiçacatl para aliviar la boca inflamada. Corroboramos que son Echeveria gibbiflora y Distichlis spicata, respectivamente. Dichas especies no cuentan con estudios químico-farmacológicos.Conclusiones: La revisión bibliográfica sugiere que las propiedades antiinflamatorias atribuidas en el Códice para S. dendroideum tienen sustento químico y farmacológico. La información quimiotaxonómica y farmacológica sugiere que B. bipinnata y L. glaucescens podrían presentarlas y deben investigarse experimentalmente. Estas tres especies aún se emplean como antiinflamatorias en la medicina tradicional contemporánea.

Escalante, T., M. Farfán, O. Campos, L. M. Ochoa-Ochoa, K. Flores-Quintal, D. R. García-Vélez, A. L. Medina-Bárcenas, and F. Saenz. 2024. Knowledge shortfalls and the effect of wildfires on biodiversity conservation in Guanajuato, Mexico. Revista Mexicana de Biodiversidad 95: e955323. https://doi.org/10.22201/ib.20078706e.2024.95.5323

Knowledge of shortfalls could modify the geographic distribution patterns and limit the actions to conserve the biodiversity, even in the taxa best known. In addition, forest fires also could modify those patterns, but the potential effects of both factors have not been tested. Our aim was to analyze the effect of the Linnean and Wallacean shortfalls in the first evaluation of wildfire impacts on 22 amphibian and 13 mammal species distributed in Guanajuato, Mexico. We evaluated those shortfalls using the non-parametric estimator Chao2 and the Qs estimator and through maps of species richness patterns. To evaluate the effects of wildfires, we produced a fire recurrence map and quantified the burned area within species distributions and in 24 Protected Natural Areas (PNA) in the state. The Linnean shortfall showed some species missing to record in Guanajuato for both taxa, while the Wallacean shortfall showed poor quality of knowledge. Fire recurrence was high within 5 PNA. The richness patterns affected by fires covered nearly 17% of the surface of Guanajuato. Improving the knowledge of biogeographical patterns could provide better tools to stakeholders to decrease the negative impact of fires within PNA.