Your search keyword '"Emerson, Brent C."' showing total 7 results

1. Species delimitation 4.0: integrative taxonomy meets artificial intelligence

Author

Karbstein, Kevin, Kösters, Lara, Hodač, Ladislav, Hofmann, Martin, Hörandl, Elvira, Tomasello, Salvatore, Wagner, Natascha D., Emerson, Brent C., Albach, Dirk C., Scheu, Stefan, Bradler, Sven, de Vries, Jan, Irisarri, Iker, Li, He, Soltis, Pamela, Mäder, Patrick, and Wäldchen, Jana

Published

2024

2. Species delimitation 4.0: integrative taxonomy meets artificial intelligence

Author

Federal Ministry of Education and Research (Germany), Ministry of Agriculture and Food (Germany), Federal Ministry for the Environment, Nature Conservation, Nuclear Safety, and Consumer Protection (Germany), German Research Foundation, European Commission, National Natural Science Foundation of China, Karbstein, Kevin [0000-0003-1424-6557], Kösters, Lara [0000-0002-7913-2377], Hodač, Ladislav [0000-0002-6885-1317], Hofmann, Martin [0000-0002-4440-3317], Hörandl, Elvira [0000-0002-7600-1128], Tomasello, Salvatore [0000-0001-5201-1156], Wagner, Natascha D. [0000-0001-6623-7623], Emerson, Brent C. [0000-0003-4067-9858], Albach , Dirk C. [0000-0001-9056-7382], Scheu, Stefan [0000-0003-4350-9520], Bradler, Sven [0000-0001-9307-1032], de Vries, Jan [0000-0003-3507-5195], Irisarri, Iker [0000-0002-3628-1137], Li, He [0000-0002-4591-8056], Pamela Soltis [0000-0001-9310-8659], Mäder, Patrick [0000-0001-6871-2707], Wäldchen, Jana [0000-0002-2631-1531], Karbstein, Kevin, Kösters, Lara, Hodač, Ladislav, Hofmann, Martin, Hörandl, Elvira, Tomasello, Salvatore, Wagner, Natascha D., Emerson, Brent C., Albach , Dirk C., Scheu, Stefan, Bradler, Sven, de Vries, Jan, Irisarri, Iker, Li, He, Pamela Soltis, Mäder, Patrick, Wäldchen, Jana, Federal Ministry of Education and Research (Germany), Ministry of Agriculture and Food (Germany), Federal Ministry for the Environment, Nature Conservation, Nuclear Safety, and Consumer Protection (Germany), German Research Foundation, European Commission, National Natural Science Foundation of China, Karbstein, Kevin [0000-0003-1424-6557], Kösters, Lara [0000-0002-7913-2377], Hodač, Ladislav [0000-0002-6885-1317], Hofmann, Martin [0000-0002-4440-3317], Hörandl, Elvira [0000-0002-7600-1128], Tomasello, Salvatore [0000-0001-5201-1156], Wagner, Natascha D. [0000-0001-6623-7623], Emerson, Brent C. [0000-0003-4067-9858], Albach , Dirk C. [0000-0001-9056-7382], Scheu, Stefan [0000-0003-4350-9520], Bradler, Sven [0000-0001-9307-1032], de Vries, Jan [0000-0003-3507-5195], Irisarri, Iker [0000-0002-3628-1137], Li, He [0000-0002-4591-8056], Pamela Soltis [0000-0001-9310-8659], Mäder, Patrick [0000-0001-6871-2707], Wäldchen, Jana [0000-0002-2631-1531], Karbstein, Kevin, Kösters, Lara, Hodač, Ladislav, Hofmann, Martin, Hörandl, Elvira, Tomasello, Salvatore, Wagner, Natascha D., Emerson, Brent C., Albach , Dirk C., Scheu, Stefan, Bradler, Sven, de Vries, Jan, Irisarri, Iker, Li, He, Pamela Soltis, Mäder, Patrick, and Wäldchen, Jana

Abstract

Although species are central units for biological research, recent findings in genomics are raising awareness that what we call species can be ill-founded entities due to solely morphology-based, regional species descriptions. This particularly applies to groups characterized by intricate evolutionary processes such as hybridization, polyploidy, or asexuality. Here, challenges of current integrative taxonomy (genetics/genomics + morphology + ecology, etc.) become apparent: different favored species concepts, lack of universal characters/markers, missing appropriate analytical tools for intricate evolutionary processes, and highly subjective ranking and fusion of datasets. Now, integrative taxonomy combined with artificial intelligence under a unified species concept can enable automated feature learning and data integration, and thus reduce subjectivity in species delimitation. This approach will likely accelerate revising and unraveling eukaryotic biodiversity.

Published

2024

3. Genetic legacies of mega-landslides: Cycles of isolation and contact across flank collapses in an oceanic island

Author

Cabildo de Gran Canaria, Cabildo de Tenerife, CSIC - Unidad de Recursos de Información Científica para la Investigación (URICI), Ministerio de Economía y Competitividad (España), European Commission, Ministerio de Ciencia e Innovación (España), Ministerio de Economía, Industria y Competitividad (España), Noguerales, Víctor [0000-0003-3185-778X], Arjona, Yurena [0000-0002-1851-1664], García-Olivares, Víctor [0000-0002-0104-377X], Machado, Antonio [0009-0002-7917-8401], López, Heriberto [0000-0002-9870-9530], Patiño, Jairo [0000-0001-5532-166X], Emerson, Brent C. [0000-0003-4067-9858], Noguerales, Víctor, Arjona, Yurena, García-Olivares, Víctor, Machado, Antonio, López, Heriberto, Patiño, Jairo, Emerson, Brent C., Cabildo de Gran Canaria, Cabildo de Tenerife, CSIC - Unidad de Recursos de Información Científica para la Investigación (URICI), Ministerio de Economía y Competitividad (España), European Commission, Ministerio de Ciencia e Innovación (España), Ministerio de Economía, Industria y Competitividad (España), Noguerales, Víctor [0000-0003-3185-778X], Arjona, Yurena [0000-0002-1851-1664], García-Olivares, Víctor [0000-0002-0104-377X], Machado, Antonio [0009-0002-7917-8401], López, Heriberto [0000-0002-9870-9530], Patiño, Jairo [0000-0001-5532-166X], Emerson, Brent C. [0000-0003-4067-9858], Noguerales, Víctor, Arjona, Yurena, García-Olivares, Víctor, Machado, Antonio, López, Heriberto, Patiño, Jairo, and Emerson, Brent C.

Abstract

Catastrophic flank collapses are recognized as important drivers of insular biodiversity dynamics, through the disruption of species ranges and subsequent allopatric divergence. However, little empirical data supports this conjecture, with their evolutionary consequences remaining poorly understood. Using genome-wide data within a population genomics and phylogenomics framework, we evaluate how mega-landslides have impacted evolutionary and demographic history within a species complex of weevils (Curculionidae) within the Canary Island of Tenerife. We reveal a complex genomic landscape, within which individuals of single ancestry were sampled in areas characterized by long-term geological stability, relative to the timing of flank collapses. In contrast, individuals of admixed ancestry were almost exclusively sampled within the boundaries of flank collapses. Estimated divergence times among ancestral populations aligned with the timings of mega-landslide events. Our results provide first evidence for a cyclical dynamic of range fragmentation and secondary contact across flank collapse landscapes, with support for a model where this dynamic is mediated by Quaternary climate oscillations. The context within which we reveal climate and topography to interact cyclically through time to shape the geographic structure of genetic variation, together with related recent work, highlights the importance of topoclimatic phenomena as an agent of diversification within insular invertebrates.

Published

2024

4. Using bryophyte life strategies as indicators of fire disturbance in Macaronesian laurel forests

Author

Cedrés-Perdomo, Ruymán David, Emerson, Brent C., and Mancebo, Juana María González

Abstract

Fire alters ecosystems by impacting their composition and structure, ultimately influencing vegetation patterns across landscapes. Bryophytes are the most ancient terrestrial plants and represent an important component of subtropical and tropical humid forests globally. Bryophyte life strategies encompass different adaptive characteristics that can help to differentiate disturbance levels, thus serving as potential indicators of forest maturity. Their life strategy classification differentiates among reproductive effort, dispersal ability, colonisation success, and lifespan. Analysing fire effects through bryophyte life strategies thus offers a window for understanding the consequences of fire disturbance on ecosystem structure and function. Here we examined bryophyte life strategy compositions within Macaronesian laurel forests of the Canary Islands encompassing four fire events, ranging from 5 to 57 years, comparing between burnt and unburnt (control) plots. The influence of climate, forest structure and time since fire on both the richness and cover of different bryophyte life strategies was assessed. Results reveal that life strategy richness, abundance and composition change with environmental conditions, forest structure, and that these differ according to ecological group (terricolous, saxicolous and epiphytes), and that, in addition to time since the fire, other factors are at play. On one hand, short-life and widespread species quickly colonise the terrestrial substrate in the first post-fire stages, serving as alteration indicators. On the other hand, perennial species from all ecological groups, together with saxicolous long-lived shuttles served as indicators of forest maturity. Our work underscores the value of using bryophyte life strategies as a measure of post-fire microhabitat recovery.

Published

2024

5. Genetic legacies of mega‐landslides: Cycles of isolation and contact across flank collapses in an oceanic island.

Author

Noguerales, Víctor, Arjona, Yurena, García‐Olivares, Víctor, Machado, Antonio, López, Heriberto, Patiño, Jairo, and Emerson, Brent C.

Subjects

PHYLOGEOGRAPHY, GENETIC variation, LANDSLIDES, ISLANDS, INSECT diversity, CURCULIONIDAE, OSCILLATIONS

Abstract

Catastrophic flank collapses are recognized as important drivers of insular biodiversity dynamics, through the disruption of species ranges and subsequent allopatric divergence. However, little empirical data supports this conjecture, with their evolutionary consequences remaining poorly understood. Using genome‐wide data within a population genomics and phylogenomics framework, we evaluate how mega‐landslides have impacted evolutionary and demographic history within a species complex of weevils (Curculionidae) within the Canary Island of Tenerife. We reveal a complex genomic landscape, within which individuals of single ancestry were sampled in areas characterized by long‐term geological stability, relative to the timing of flank collapses. In contrast, individuals of admixed ancestry were almost exclusively sampled within the boundaries of flank collapses. Estimated divergence times among ancestral populations aligned with the timings of mega‐landslide events. Our results provide first evidence for a cyclical dynamic of range fragmentation and secondary contact across flank collapse landscapes, with support for a model where this dynamic is mediated by Quaternary climate oscillations. The context within which we reveal climate and topography to interact cyclically through time to shape the geographic structure of genetic variation, together with related recent work, highlights the importance of topoclimatic phenomena as an agent of diversification within insular invertebrates. [ABSTRACT FROM AUTHOR]

Published

2024

6. Environmental heterogeneity, rather than stability, explains spider assemblage differences between ecosystems.

Author

Suárez, Daniel, Arribas, Paula, Srivathsan, Amrita, Meier, Rudolf, and Emerson, Brent C.

Subjects

*NUMBERS of species, *ENDEMIC species, *ENDANGERED species, *STRUCTURAL stability, *SPECIES diversity

Abstract

The open ecosystem (e.g. grasslands, prairies, shrublands) tends to be ecologically less stable than closed one (i.e. forests) and encompassess higher spatial heterogeneity in terms of environmental diversity. Such differences are expected to differentially constrain the diversity and structure of the communities that inhabit each of them, but identifying the specific processes driving contrasting biodiversity patterns between open and closed systems is challenging. In order to understand how environmental variability might structure spider assemblages, both between and within open and closed ecosystems, we implement a high throughput multiplex barcode sequencing approach to generate a dataset for 8585 specimens representing 168 species, across the open ecosystem within the Canary Islands. Combining these with spider sequences from the closed ecosystem within the same islands, we show that spider communities in the open ecosystem show higher species richness, higher beta diversity, and higher proportions of rare species but proportionately lower numbers of endemic species than communities in the closed ecosystem. We furthermore assess if environmental heterogeneity and habitat stability are the major drivers of such differences by assessing spatial genetic structuring and the influence of bioclimatic variables. Our results point to environmental heterogeneity rather than stability as a major driver of spatial patterns between open and closed ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

7. Smaller islands, bigger appetites: evolutionary strategies of insular endemic skinks.

Author

Pinho CJ, Dinis HA, Emerson BC, and Vasconcelos R

Abstract

Competitive dietary and morphological divergence among co-occurring species are fundamental aspects of ecological communities, particularly on islands. Cabo Verde (~570 km west of continental Africa) hosts several endemic reptiles descended from common ancestors, with sympatric species exhibiting wide morphological variation and competing for limited resources. To explore the mechanisms of resource partitioning between coexisting species, DNA metabarcoding was used to compare the diets of large and small skinks, Chioninia vaillantii and Chioninia delalandii , in sympatric and allopatric contexts on Fogo Island and in a more competitive context on the small and resource-poor Cima Islet. The morphological variation of all populations was also examined to test the character displacement hypothesis and to compare the effect of different competitive scenarios. Results showed significant differences in diet and linear measurements between species and populations. The two sympatric populations of C. delalandii on Fogo and Cima showed similar changes in head morphology compared to the allopatric population, supporting character displacement. The effect of higher competitive pressure on Cima was evidenced by the increased morphological and dietary variation observed. This study demonstrates how sister species develop dietary adaptations/morphologies to maintain stable coexistence, especially in highly competitive scenarios, providing useful insights for effective conservation strategies., Competing Interests: We declare we have no competing interests., (© 2024 The Author(s).)

Published

2024