Showing total 44 results

1. Abstracts of papers to be presented at the sixty-third annual meeting of the American Association...

Subjects

*PLESIADAPIDAE, *BIOLOGICAL extinction, *PALEOECOLOGY, *PALEOGENE paleontology, *SPECIES diversity

Abstract

Presents an abstract of the study `Faunal turnover in plesiadapiforms and early euprimates from the Western Interior of North America,' by E.M. McGee. Causes for the radiation and extinction of plesiadapiforms and early euprimates in North America; Faunal diversity in Paleogene mammals.

Published

1994

2. A reevaluation of bird taxonomic identifications at Contact‐ and historic‐era North American sites.

Author

Watson, Jessica E. and Ledogar, Sarah Heins

Subjects

IDENTIFICATION of birds, BIRD diversity, TURKEYS, CHICKENS, BIRDS, ARCHAEOLOGICAL assemblages, BIRD classification

Abstract

Domestic chickens (Gallus domesticus) and turkeys (Meleagris gallopavo) are identified more frequently than other bird species in bone assemblages from historic sites in North America. Recent studies on the effectiveness of metric data for identification of galliform bones found high degrees of similarity in size and morphology between wild game birds (e.g., grouse and ptarmigan) and multiple domestic or introduced species (e.g., chicken and pheasant). This finding suggests that wild taxa and less common domesticates may have been misidentified as chicken and as a result are underrepresented in these historic datasets. In this paper, we evaluate the precision of bird taxonomic identifications from five Contact‐ and historic‐era sites in New York State, comparing the initial taxon designations recorded in site reports with our new identifications derived from a combination of comparative morphological and osteometric analyses. After our analysis of the assemblages, game bird diversity at most of the sites expanded, as did the prevalence of other orders (e.g., Anseriformes and Strigiformes). The updated identifications highlight the diversity of birds used in historic contexts and the importance of combining multiple analytical methods to increase accuracy. [ABSTRACT FROM AUTHOR]

Published

2019

3. Use and categorization of Light Detection and Ranging vegetation metrics in avian diversity and species distribution research.

Author

Bakx, Tristan R. M., Koma, Zsófia, Seijmonsbergen, Arie C., Kissling, W. Daniel, and Zurell, Damaris

Subjects

OPTICAL radar, LIDAR, SPECIES diversity, SPECIES distribution, ANIMAL diversity, BIRD ecology

Abstract

Aim: Vegetation structure is a key determinant of animal diversity and species distributions. The introduction of Light Detection and Ranging (LiDAR) has enabled the collection of massive amounts of point cloud data for quantifying habitat structure at fine resolution. Here, we review the current use of LiDAR‐derived vegetation metrics in diversity and distribution research of birds, a key group for understanding animal–habitat relationships. Location: Global. Methods: We review 50 relevant papers and quantify where, in which habitats, at which spatial scales and with what kind of LiDAR data current studies make use of LiDAR metrics. We also harmonize and categorize LiDAR metrics and quantify their current use and effectiveness. Results: Most studies have been conducted at local extents in temperate forests of North America and Europe. Rasterization is currently the main method to derive LiDAR metrics, usually from airborne laser scanning data with low point densities (<10 points/m2) and small footprints (<1 m diameter). Our metric harmonization suggests that 40% of the currently used metric names are redundant. A categorization scheme allowed to group all metric names into 18 out of 24 theoretically possible classes, defined by vegetation part (total vegetation, single trees, canopy, understorey, and other single layers as well as multi‐layer) and structural type (cover, height, horizontal variability and vertical variability). Metrics related to canopy cover, canopy height and canopy vertical variability are currently most often used, but not always effective. Main conclusions: Light Detection and Ranging metrics play an important role in understanding animal space use. Our review and the developed categorization scheme may facilitate future studies in the selection, prioritization and ecological interpretation of LiDAR metrics. The increasing availability of airborne and spaceborne LiDAR data and the development of voxel‐based and object‐based approaches will further allow novel ecological applications, also for open habitats and other vertebrate and invertebrate taxa. [ABSTRACT FROM AUTHOR]

Published

2019

4. Regional species gains outpace losses across North American continental shelf regions.

Author

Kitchel, Zoë J. and Pinsky, Malin L.

Subjects

BIOLOGICAL extinction, DREDGING (Fisheries), MARINE fishes, SPECIES diversity, MARINE invertebrates, HABITATS

Abstract

Aim: Although species richness globally is likely to be declining, patterns in diversity at the regional scale depend on species gains within new habitats and species losses from previously inhabited areas. Our understanding of the processes associated with gains or losses remains poor, including whether these events exhibit immediate or delayed responses to environmental change. Location: The study focuses on nine temperate marine ecosystems in North America. Time period: The study period varies by region, but overall encompasses observations from 1970 to 2014. Major taxa studied: We identified regional gains and losses for 577 marine fish and invertebrate species. Methods: From a total of 166,213 sampling events from bottom trawls across North America that informed 17,997 independent observations of species gains and losses, we built generalized linear mixed effects models to test whether lagged temperature can explain instances of gains and losses of marine fishes and invertebrates in North American continental shelf habitats. Results: We found that gains were less likely in years with high seasonality, consistent with seasonal extremes as a strong constraint on species occurrence. Losses were also negatively associated with high seasonality, but the response was delayed by 3 years. Main conclusions: Environmental conditions play a role in species occupancy across diverse temperate marine ecosystems. Immediate gains paired with delayed losses can drive transient increases in species richness during times of environmental change. Identifying the dynamics behind regional species gains and losses is an important step towards prediction of biodiversity changes across ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

5. Zoo studies in primate physiology, health, and welfare.

Author

Edes, Ashley N.

Subjects

ZOOS, HOMINIDS, ENDANGERED species, PRIMATES, SPECIES diversity, REPRODUCTION

Abstract

Researchers have been studying primates in zoos for more than half a century. There are numerous benefits to conducting research with zoo collections, such as access to a variety of species, ease of sample collection, and the potential to manipulate some research variables. While much of the primate research conducted in zoos is behavioral, there also is a tradition of research focused on reproduction and endocrinology, especially in North America. The contributions to this special issue exemplify how this tradition continues today through a collection of articles on basic and applied research on reproduction and using physiological measures of health and welfare that could be beneficial across primate taxa. As is the case for primatological research in zoos more broadly, the articles in this special issue reflect a taxonomic bias for great apes despite the high species diversity found across zoo collections. Given this bias as well as the threat of extinction faced by many species, there remains a pressing need to increase primatology in zoos through research dedicated to both conservation in the wild and wellbeing in human care. [ABSTRACT FROM AUTHOR]

Published

2023

6. Rapid recovery of boreal rove beetle (Staphylinidae) assemblages 16 years after variable retention harvest.

Author

Lee, Seung‐Il, Langor, David W., Spence, John R., Pinzon, Jaime, Pohl, Gregory R., Hartley, Dustin J., Work, Timothy T., and Wu, Linhao

Subjects

STAPHYLINIDAE, HARVESTING, ECOSYSTEM management, PITFALL traps, SPECIES diversity, TAIGAS

Abstract

Post‐harvest recovery of biodiversity is one of important goals in modern forestry. A variable retention (VR) approach has been of particular interest in North America because it promotes rapid faunal recovery, while minimizing negative lasting impacts of logging on the natural fauna. We studied responses of rove beetles (Coleoptera: Staphylinidae) to a broad range of retention harvests (2, 10, 20, 50 and 75% retention) in comparison to uncut controls as part of the Ecosystem Management Emulating Natural Disturbance (EMEND) experiment in the boreal mixedwood forest of western Canada. We sampled beetles using pitfall traps 1, 2, 11 and 16 years post‐harvest in replicated (n = 3) stands representing four cover types (deciduous‐dominated, deciduous with spruce understory, mixed and coniferous‐dominated). We collected 74 263 individuals distributed across 99 species (excluding Aleocharinae). Estimated species richness was highest in clear‐cuts until year 11, but by year 16 species richness was similar among treatments. Species composition initially varied strongly in relation to intensity of harvest treatments, but overall variation decreased with time, and by year 16, species composition overlapped among most treatment combinations. Assemblages recovered more quickly in early successional (deciduous‐dominated) than in late successional (mixed and conifer‐dominated) stands. Overall, our results show that rove beetle assemblages in stands harvested to all VR prescriptions converged more rapidly toward those in fire‐origin mature stands than did assemblages in clear‐cuts over the first 16 years post‐harvest. Thus, it demonstrates that even modest levels of forest retention can facilitate the recovery of staphylinid assemblages in managed landscapes. [ABSTRACT FROM AUTHOR]

Published

2023

7. Using recent baselines as benchmarks for megafauna restoration places an unfair burden on the Global South.

Author

Monsarrat, Sophie and Svenning, Jens‐Christian

Subjects

DEVELOPING countries, MEGAFAUNA, SPECIES diversity, PLEISTOCENE Epoch, WILDLIFE reintroduction

Abstract

The potential for megafauna restoration is unevenly distributed across the world, along with the socio‐political capacity of countries to support these restoration initiatives. We show that choosing a recent baseline to identify species' indigenous range puts a higher burden for megafauna restoration on countries in the Global South, which also have less capacity to support these restoration initiatives. We introduce the Megafauna Index, which considers large mammal's potential species richness and range area at the country level, to explore how the responsibility for megafauna restoration is distributed across the world according to four scenarios using various temporal benchmarks to define species' indigenous range – current, historical (1500 AD), mid‐Holocene and Pleistocene. We test how the distribution of restoration burden across the world correlates with indicators of conservation funding, human development and governance. Using a recent or historical baseline as a benchmark for restoration puts a higher pressure on African and south‐east Asian countries while lifting the responsibility from the Global North, where extinctions happened a long time ago. When using a mid‐Holocene or Pleistocene baseline, new opportunities arise for megafauna restoration in Europe and North America, respectively, where countries have a higher financial and societal capacity to support megafauna restoration. These results contribute to the debate around benchmarks in rewilding initiatives and the ethical implications of using recent baselines to guide restoration efforts. We suggest that countries from the Global North should reflect on their responsibility in supporting global restoration efforts, by both increasing their support for capacity building in the Global South and taking responsibility for restoring lost megafauna at home. [ABSTRACT FROM AUTHOR]

Published

2022

8. The biogeography and filtering of woody plant functional diversity in North and South America.

Author

Swenson, Nathan G., Enquist, Brian J., Pither, Jason, Kerkhoff, Andrew J., Boyle, Brad, Weiser, Michael D., Elser, James J., Fagan, William F., Forero-Montaña, Jimena, Fyllas, Nikolaos, Kraft, Nathan J. B., Lake, Jeffrey K., Moles, Angela T., Patiño, Sandra, Phillips, Oliver L., Price, Charles A., Reich, Peter B., Quesada, Carlos A., Stegen, James C., and Valencia, Renato

Subjects

BIOGEOGRAPHY, WOODY plants, SPECIES diversity, ZOOGEOGRAPHY

Abstract

ABSTRACT Aim In recent years evidence has accumulated that plant species are differentially sorted from regional assemblages into local assemblages along local-scale environmental gradients on the basis of their function and abiotic filtering. The favourability hypothesis in biogeography proposes that in climatically difficult regions abiotic filtering should produce a regional assemblage that is less functionally diverse than that expected given the species richness and the global pool of traits. Thus it seems likely that differential filtering of plant traits along local-scale gradients may scale up to explain the distribution, diversity and filtering of plant traits in regional-scale assemblages across continents. The present work aims to address this prediction. Location North and South America. Methods We combine a dataset comprising over 5.5 million georeferenced plant occurrence records with several large plant functional trait databases in order to: (1) quantify how several critical traits associated with plant performance and ecology vary across environmental gradients; and (2) provide the first test of whether the woody plants found within 1° and 5° map grid cells are more or less functionally diverse than expected, given their species richness, across broad gradients. Results The results show that, for many of the traits studied, the overall distribution of functional traits in tropical regions often exceeds the expectations of random sampling given the species richness. Conversely, temperate regions often had narrower functional trait distributions than their smaller species pools would suggest. Main conclusion The results show that the overall distribution of function does increase towards the equator, but the functional diversity within regional-scale tropical assemblages is higher than that expected given their species richness. These results are consistent with the hypothesis that abiotic filtering constrains the overall distribution of function in temperate assemblages, but tropical assemblages are not as tightly constrained. [ABSTRACT FROM AUTHOR]

Published

2012

9. Geographic variation in network structure of a nearctic aquatic food web.

Author

Baiser, Benjamin, Gotelli, Nicholas J., Buckley, Hannah L., Miller, Thomas E., and Ellison, Aaron M.

Subjects

FOOD chains, BIOGEOGRAPHY, BIOLOGICAL variation, SPECIES diversity, BIOTIC communities, CLIMATE change, PREDATION, METEOROLOGICAL precipitation, PITCHER plants

Abstract

ABSTRACT Aim The network structure of food webs plays an important role in the maintenance of diversity and ecosystem functioning in ecological communities. Previous research has found that ecosystem size, resource availability, assembly history and biotic interactions can potentially drive food web structure. However, the relative influence of climatic variables that drive broad-scale biogeographic patterns of species richness and composition has not been explored for food web structure. In this study, we assess the influence of broad-scale climatic variables in addition to known drivers of food web structure on replicate observations of a single aquatic food web, sampled from the leaves of the pitcher plant ( Sarracenia purpurea), at different geographic sites across a broad latitudinal and climatic range. Location Using standardized sampling methods, we conducted an extensive 'snapshot' survey of 780 replicated aquatic food webs collected from the leaves of the pitcher plant S. purpurea at 39 sites from northern Florida to Newfoundland and westward to eastern British Columbia. Methods We examined correlations of 15 measures of food web structure at the pitcher and site scales with geographic variation in temperature and precipitation, concentrations of nutrients from atmospheric nitrogen deposition, resource availability, ecosystem size and the abundance of the pitcher plant mosquito ( Wyeomyia smithii), a potential keystone species. Results At the scale of a single pitcher plant leaf, linkage density, species richness, measures of chain length and the proportion of omnivores in a web all increased with pitcher volume. Linkage density and species richness were greater at high-latitude sites, which experience low mean temperatures and precipitation and high annual variation in both of these variables. At the site scale, variation in 8 of the 15 food web metrics decreased at higher latitudes, and variation in measures of chain length increased with the abundance of mosquitoes. Main conclusions Ecosystem size and climatic variables related to latitude were most strongly correlated with network structure of the Sarracenia food web. However, in spite of large sample sizes, thorough standardized sampling and the large geographic extent of the survey, even the best-fitting models explained less than 40% of the variation in food web structure. In contrast to biogeographic patterns of species richness, food web structure was largely independent of broad-scale climatic variables. The large proportion of unexplained variance in our analyses suggests that stochastic assembly may be an important determinant of local food web structure. [ABSTRACT FROM AUTHOR]

Published

2012

10. Recent climate change is creating hotspots of butterfly increase and decline across North America.

Author

Crossley, Michael S., Smith, Olivia M., Berry, Lauren L., Phillips‐Cosio, Robert, Glassberg, Jeffrey, Holman, Kaylen M., Holmquest, Jacquelin G., Meier, Amanda R., Varriano, Sofia A., McClung, Maureen R., Moran, Matthew D., and Snyder, William E.

Subjects

CLIMATE change, BUTTERFLIES, INSECT populations, SPECIES diversity, ENDANGERED ecosystems

Abstract

Some insect populations are experiencing dramatic declines, endangering the crucial ecosystem services they provide. Yet, other populations appear robust, highlighting the need to better define patterns and underlying drivers of recent change in insect numbers. We examined abundance and biodiversity trends for North American butterflies using a unique citizen‐science dataset that has recorded observations of over 8 million butterflies across 456 species, 503 sites, nine ecoregions, and 26 years. Butterflies are a biodiverse group of pollinators, herbivores, and prey, making them useful bellwethers of environmental change. We found great heterogeneity in butterfly species' abundance trends, aggregating near zero, but with a tendency toward decline. There was strong spatial clustering, however, into regions of increase, decrease, or relative stasis. Recent precipitation and temperature appeared to largely drive these patterns, with butterflies generally declining at increasingly dry and hot sites but increasing at relatively wet or cool sites. In contrast, landscape and butterfly trait predictors had little influence, though abundance trends were slightly more positive around urban areas. Consistent with varying responses by different species, no overall directional change in butterfly species richness or evenness was detected. Overall, a mosaic of butterfly decay and rebound hotspots appeared to largely reflect geographic variability in climate drivers. Ongoing controversy about insect declines might dissipate with a shift in focus to the causes of heterogeneous responses among taxa and sites, with climate change emerging as a key suspect when pollinator communities are broadly impacted. [ABSTRACT FROM AUTHOR]

Published

2021

11. Drivers of native and non‐native freshwater fish richness across North America: Disentangling the roles of environmental, historical and anthropogenic factors.

Author

Anas, M. U. Mohamed, Mandrak, Nicholas E., and Belmaker, Jonathan

Subjects

FRESHWATER fishes, GLOBAL environmental change, POPULATION density, NATIVE fishes, INTRODUCED species, SPECIES diversity, WATERSHEDS

Abstract

Aim: A better understanding of native and non‐native species responses to environmental conditions, historical processes, and human pressures is crucial in the face of global environmental changes affecting biodiversity. Here, we evaluate the relative roles of environmental, historical and anthropogenic factors in influencing species richness of native and non‐native freshwater fishes in watersheds across North America. Location: North America (exclusive of Mexico). Time period: Recent. Major taxa studied: Freshwater fishes. Methods: We compiled an extensive dataset of native and non‐native fish richness in 2,993 watersheds across North America, together with corresponding data for environmental (climatic, geographic), historical and anthropogenic factors. We used variance partitioning and hierarchical partitioning to quantify the relative importance of environmental, historical and anthropogenic factors in explaining richness variation in native and non‐native [overall, and by geographic origin (foreign/translocated) and pathway (authorized/unauthorized)] fishes, while accounting for correlations among explanatory variables and spatial autocorrelation. Results: Overall importance of environmental and anthropogenic factors was greater than historical factors in explaining both native and non‐native richness. Precipitation‐related factors were more important in explaining native richness, whereas non‐native richness was largely associated with temperature‐related factors. However, richness related to authorized introductions was less constrained by temperature than unauthorized introductions. Dam density, road density and urbanization gradient were major anthropogenic factors related to non‐native richness, yet their relative importance varied among origin‐ and pathway‐based categories. Conclusions: Our findings indicate different environmental drivers influence native and non‐native fish richness patterns in North America. The accumulation of non‐native species in watersheds depends on the interaction between environmental conditions and anthropogenic‐based processes related to introduction history including geographic origin, introduction pathway, and propagule pressure, where the latter likely plays a major role. Warmer regions with high human population densities and more impoundments are more prone to fish invasions, mostly via unauthorized introductions. [ABSTRACT FROM AUTHOR]

Published

2021

12. Potential regional declines in species richness of tomato pollinators in North America under climate change.

Author

Carrasco, Luis, Papeş, Monica, Lochner, Ellie N., Ruiz, Brandyn C., Williams, Abigail G., and Wiggins, Gregory J.

Subjects

SPECIES diversity, CLIMATE change, POLLINATION by insects, POLLINATORS, SPARUS aurata, BUMBLEBEES, FOREST declines

Abstract

About 70% of the world's main crops depend on insect pollination. Climate change is already affecting the abundance and distribution of insects, which could cause geographical mismatches between crops and their pollinators. Crops that rely primarily on wild pollinators (e.g., crops that cannot be effectively pollinated by commercial colonies of honey bees) could be particularly in jeopardy. However, limited information on plant–pollinator associations and pollinator distributions complicate the assessment of climate change impacts on specific crops. To study the potential impacts of climate change on pollination of a specific crop in North America, we use the case of open‐field tomato crops, which rely on buzz pollinators (species that use vibration to release pollen, such as bumble bees) to increase their production. We aimed to (1) assess potential changes in buzz pollinator distribution and richness, and (2) evaluate the overlap between areas with high densities of tomato crops and high potential decrease in richness. We used baseline (1961–1990) climate and future (2050s and 2080s) climatic projections in ecological niche models fitted with occurrences of wild bees, documented in the literature as pollinators of tomatoes, to estimate the baseline and future potential distribution of suitable climatic conditions of targeted species and to create maps of richness change across North America. We obtained reliable models for 15 species and found important potential decreases in the distribution of some pollinators (e.g., Lasioglossum pectorale and Augochlorella aurata). We observed geographical discrepancies in the projected change in species richness across North America, detecting important declines in the eastern United States (up to 11 species decrease for 2050s). After overlapping the maps of species richness change with a tomato crop map for the United States, we found spatial correspondence between richness declines and areas with high concentration of tomato crops. Disparities in the effects of climate change on the potential future distribution of different wild pollinators and geographical variation in richness highlight the importance of crop‐specific studies. Our study also emphasizes the challenges of compiling and modeling crop‐specific pollinator data and the need to improve our understanding of current distribution of pollinators and their community dynamics under climate change. [ABSTRACT FROM AUTHOR]

Published

2021

13. Latitudinal and environmental patterns of species richness in lizards and snakes across continental North America.

Author

Whiting, Evan T. and Fox, David L.

Subjects

SPECIES diversity, LIZARDS, SNAKES, REPTILES, SQUAMATA, GRIDS (Cartography)

Abstract

Aim: Little is known about the contributions of individual clades to the broader latitudinal diversity gradients of lizards and snakes in North America. Additionally, the environmental variables underpinning these patterns have not been extensively studied, nor have the relationships between squamate species richness and biome variety, a proxy for habitat heterogeneity. Here, we deconstruct the latitudinal diversity gradient of squamates and investigate lizard and snake species richness in relation to environmental gradients and biomes across continental North America. Location: North America, excluding islands. Taxon: Squamata (lizards and snakes). Methods: We collated a suite of environmental variables (n = 10) and squamate species ranges (n = 1,152) in an equal‐area grid system (100 × 100 km cells) spanning continental North America. We deconstructed the latitudinal diversity gradient of squamates and examined species richness patterns for all lizards, all snakes and several individual squamate clades. We used multiple linear regressions to determine which environmental factors are most important for each squamate clade. Finally, we documented species richness within biomes and tested for correlations between species richness and biome variety. Results: Squamates exhibit a strong latitudinal diversity gradient across continental North America. Snakes are more widespread and have a stronger gradient than lizards. Our multiple linear regression results indicate strong associations between species richness and environmental variables for all individual squamate clades analysed; temperature variables are strongly positively correlated with species richness. Biome variety is more strongly correlated with lizard species richness than snake species richness. Squamates are most species‐rich in tropical/subtropical forests, deserts and mangroves. Main conclusions: Most snake clades in North America exhibit strong latitudinal diversity gradients, but only two lizard clades, Dactyloidae (anoles) and Gekkota (geckos), display strong gradients and thus drive the overall lizard pattern. Squamate clades differ in their responses to environmental gradients, as reflected by their species richness patterns, with warmer climates generally harboring more species. Lizards are more strongly associated with habitat heterogeneity than snakes are, consistent with results from previous studies. Squamates in more rapidly shifting biomes (e.g. deserts, mangroves) may face a greater risk of extinction from impending climate change. [ABSTRACT FROM AUTHOR]

Published

2021

14. Revegetation of degraded ecosystems into grasslands using biosolids as an organic amendment: A meta‐analysis.

Author

Ploughe, Laura W., Akin‐Fajiye, Morodoluwa, Gagnon, Alyson, Gardner, Wendy C., Fraser, Lauchlan H., and Morgan, John

Subjects

SEWAGE sludge, REVEGETATION, GRASSLAND soils, GRASSLANDS, SPECIES diversity, PLANT communities

Abstract

Questions: Biosolids are a source of nutrient‐rich organic material that can be used to improve degraded or disturbed soils. Research on vegetation responses to the land application of biosolids has increased in the past 20 years, but there is no consensus on how plant communities respond to biosolids applications. What factors influence productivity and vegetative cover following biosolids application for grassland reclamation? How does the addition of biosolids impact plant community responses? Location: Global, but predominantly North America and Europe. Methods: To explore vegetative responses following biosolids application, we used a global systematic review and meta‐analysis of 59 articles. Our meta‐analysis used the log response ratio (LRR) as an effect size for productivity, total cover, species richness, diversity and exotic species abundance and explored covariates addressing various site characteristics and reclamation strategies. Results: We found that across sites, the land application of biosolids significantly increased productivity and cover but had no significant overall effect on species richness, Shannon diversity or exotic species abundance on degraded lands. These increases in the LRR for productivity and vegetative cover were lower on sites that experienced a fire prior to biosolids application. Climatic variables like mean annual temperature were shown to alter the response of vegetative cover, where warmer sites tended to have more positive responses to biosolids. Seeding was found to increase plant cover but decrease species richness early in the reclamation process. Conclusions: This area of research is growing; most of the publications we used come from the last 20 years and were mostly conducted in North America and Europe. While we can build on the present literature, there is clearly room for more research to ensure the process of reclaiming degraded ecosystems using biosolids results in desired plant communities, e.g. high native species diversity. Future research should consistently report biosolids chemical characteristics as well as application and processing methodologies. [ABSTRACT FROM AUTHOR]

Published

2021

15. Formation binning: a new method for increased temporal resolution in regional studies, applied to the Late Cretaceous dinosaur fossil record of North America.

Author

Dean, Christopher D., Chiarenza, A. Alessandro, Maidment, Susannah C. R., and Mannion, Philip

Subjects

AREA studies, FOSSILS, FOSSIL collection, GEOLOGICAL time scales, DINOSAURS, SPECIES diversity

Abstract

The advent of palaeontological occurrence databases has allowed for detailed reconstruction and analyses of species richness through deep time. While a substantial literature has evolved ensuring that taxa are fairly counted within and between different time periods, how time itself is divided has received less attention. Stage‐level or equal‐interval age bins have frequently been used for regional and global studies in vertebrate palaeontology. However, when assessing diversity at a regional scale, these resolutions can prove inappropriate with the available data. Herein, we propose a new method of binning geological time for regional studies that intrinsically incorporates the chronostratigraphic heterogeneity of different rock formations to generate unique stratigraphic bins. We use this method to investigate the diversity dynamics of dinosaurs from the Late Cretaceous of the Western Interior of North America prior to the Cretaceous–Palaeogene mass extinction. Increased resolution through formation binning pinpoints the Maastrichtian diversity decline to between 68 and 66 Ma, coinciding with the retreat of the Western Interior Seaway. Diversity curves are shown to exhibit volatile patterns using different binning methods, supporting claims that heterogeneous biases in this time‐frame affect the pre‐extinction palaeobiological record. We also show that the apparent high endemicity of dinosaurs in the Campanian is a result of non‐contemporaneous geological units within large time bins. This study helps to illustrate the utility of high‐resolution, regional studies to supplement our understanding of factors governing global diversity in deep time and ultimately how geology is inherently tied to our understanding of past changes in species richness. [ABSTRACT FROM AUTHOR]

Published

2020

16. Species diversity and phylogeography of Cornus kousa (Asian dogwood) captured by genomic and genic microsatellites.

Author

Nowicki, Marcin, Houston, Logan C., Boggess, Sarah L., Aiello, Anthony S., Payá‐Milans, Miriam, Staton, Margaret E., Hayashida, Mitsuhiro, Yamanaka, Masahiro, Eda, Shigetoshi, and Trigiano, Robert N.

Subjects

PHYLOGEOGRAPHY, SPECIES diversity, BOTANICAL gardens, DOGWOODS, ORNAMENTAL plants, PLANT species diversity, CAPILLARY electrophoresis, MICROSATELLITE repeats

Abstract

Cornus kousa (Asian dogwood), an East Asia native tree, is the most economically important species of the dogwood genus, owing to its desirable horticultural traits and ability to hybridize with North America‐native dogwoods. To assess the species genetic diversity and to better inform the ongoing and future breeding efforts, we assembled an herbarium and arboretum collection of 131 noncultivated C. kousa specimens. Genotyping and capillary electrophoresis analyses of our C. kousa collection with the newly developed genic and published nuclear genomic microsatellites permitted assessment of genetic diversity and evolutionary history of the species. Regardless of the microsatellite type used, the study yielded generally similar insights into the C. kousa diversity with subtle differences deriving from and underlining the marker used. The accrued evidence pointed to the species distinct genetic pools related to the plant country of origin. This can be helpful in the development of the commercial cultivars for this important ornamental crop with increased pyramided utility traits. Analyses of the C. kousa evolutionary history using the accrued genotyping datasets pointed to an unsampled ancestor population, possibly now extinct, as per the phylogeography of the region. To our knowledge, there are few studies utilizing the same gDNA collection to compare performance of genomic and genic microsatellites. This is the first detailed report on C. kousa species diversity and evolutionary history inference. [ABSTRACT FROM AUTHOR]

Published

2020

17. Caribbean golden orbweaving spiders maintain gene flow with North America.

Author

Čandek, Klemen, Agnarsson, Ingi, Binford, Greta J., and Kuntner, Matjaž

Subjects

ORB weavers, SPECIES diversity, BIOGEOGRAPHY, POPULATION genetics, GENE flow

Abstract

The Caribbean archipelago offers one of the best natural arenas for testing biogeographic hypotheses. The intermediate dispersal model of biogeography (IDM) predicts variation in species richness among lineages on islands to relate to their dispersal potential. To test this model, one would need background knowledge of dispersal potential of lineages and their biogeographic patterns, which has been problematic as evidenced by our prior work on the Caribbean tetragnathid spiders. In order to investigate the biogeographic imprint of an excellent disperser, we study Trichonephila in the Americas. Trichonephila is a nephilid genus that contains globally distributed species known to overcome long, overwater distances. The results of our phylogenetic and population genetic analyses on T. clavipes suggest that populations over the Caribbean and North America maintain a lively gene flow. However, the single species status of T. clavipes over the entire New World is challenged by our species delimitation analyses. Combined with prior evidence from spider genera of different dispersal ability, these patterns coming from an excellent disperser (Trichonephila) that is species‐poor and of a relatively homogenous genetic structure, support the IDM predictions. [ABSTRACT FROM AUTHOR]

Published

2020

18. Comparing methods for mapping global parasite diversity.

Author

Pappalardo, Paula, Morales‐Castilla, Ignacio, Park, Andrew W., Huang, Shan, Schmidt, John P., Stephens, Patrick R., and Jordan, Greg

Subjects

PARASITES, SPECIES diversity, SPATIAL variation, ECOLOGICAL regions

Abstract

Aim: Parasites are a major component of global ecosystems, yet spatial variation in parasite diversity is poorly known, largely because their occurrence data are limited and thus difficult to interpret. Using a recently compiled database of parasite occurrences, we compare different models which we use to infer parasite geographic ranges and parasite species richness across the globe. Innovation: To date, most studies exploring spatial patterns of parasite diversity assumed, with little validation, that the geographic range of a parasite species can be represented by the collective geographic range of its host species. Our study compares this assumption with a suite of other methods to infer parasite distribution from parasite occurrence data (e.g., based on data density, ecoregions and climatic conditions). We highlight diversity hotspots identified by the various methods and compare the effects of sampling intensities in different regions, a crucial factor determining observed parasite diversity. Main conclusions: The type of model used to infer parasite distributions affects estimates of both total species richness and spatial patterns of hotspots of parasite richness. Overall, the models based on reported occurrences share similar areas of high parasite richness that tend to be biased towards areas of high sampling effort. In contrast, the model based on host distributions showed hotspots of parasite diversity that are biased towards areas of high host species richness. Accounting for sampling effort could only help to reconcile the outcome from the different models in some regions. Further, the non‐saturated species accumulation curves even for the best studied regions of the world such as Europe and North America serve as a call for further sampling effort and development of effective analytic tools that can provide robust accounts of global parasite diversity. [ABSTRACT FROM AUTHOR]

Published

2020

19. A tale of worldwide success: Behind the scenes of Carex (Cyperaceae) biogeography and diversification.

Author

Martín‐Bravo, Santiago, Jiménez‐Mejías, Pedro, Villaverde, Tamara, Escudero, Marcial, Hahn, Marlene, Spalink, Daniel, Roalson, Eric H., Hipp, Andrew L., Benítez‐Benítez, Carmen, P. Bruederle, Leo, Fitzek, Elisabeth, A. Ford, Bruce, A. Ford, Kerry, Garner, Mira, Gebauer, Sebastian, H. Hoffmann, Matthias, Jin, Xiao‐Feng, Larridon, Isabel, Léveillé‐Bourret, Étienne, and Lu, Yi‐Fei

Subjects

CAREX, CYPERACEAE, BIOGEOGRAPHY, GLOBAL cooling, SPECIES diversity, CYPERUS

Abstract

The megadiverse genus Carex (c. 2000 species, Cyperaceae) has a nearly cosmopolitan distribution, displaying an inverted latitudinal richness gradient with higher species diversity in cold‐temperate areas of the Northern Hemisphere. Despite great expansion in our knowledge of the phylogenetic history of the genus and many molecular studies focusing on the biogeography of particular groups during the last few decades, a global analysis of Carex biogeography and diversification is still lacking. For this purpose, we built the hitherto most comprehensive Carex‐dated phylogeny based on three markers (ETS–ITS–matK), using a previous phylogenomic Hyb‐Seq framework, and a sampling of two‐thirds of its species and all recognized sections. Ancestral area reconstruction, biogeographic stochastic mapping, and diversification rate analyses were conducted to elucidate macroevolutionary biogeographic and diversification patterns. Our results reveal that Carex originated in the late Eocene in E Asia, where it probably remained until the synchronous diversification of its main subgeneric lineages during the late Oligocene. E Asia is supported as the cradle of Carex diversification, as well as a "museum" of extant species diversity. Subsequent "out‐of‐Asia" colonization patterns feature multiple asymmetric dispersals clustered toward present times among the Northern Hemisphere regions, with major regions acting both as source and sink (especially Asia and North America), as well as several independent colonization events of the Southern Hemisphere. We detected 13 notable diversification rate shifts during the last 10 My, including remarkable radiations in North America and New Zealand, which occurred concurrently with the late Neogene global cooling, which suggests that diversification involved the colonization of new areas and expansion into novel areas of niche space. [ABSTRACT FROM AUTHOR]

Published

2019

20. Species richness change across spatial scales.

Author

Chase, Jonathan M., McGill, Brian J., Thompson, Patrick L., Antão, Laura H., Bates, Amanda E., Blowes, Shane A., Dornelas, Maria, Gonzalez, Andrew, Magurran, Anne E., Supp, Sarah R., Winter, Marten, Bjorkman, Anne D., Bruelheide, Helge, Byrnes, Jarrett E. K., Cabral, Juliano Sarmento, Elahi, Robin, Gomez, Catalina, Guzman, Hector M., Isbell, Forest, and Myers‐Smith, Isla H.

Subjects

SPECIES diversity, PLANT species diversity, BIOLOGICAL extinction, NUMBERS of species, BIODIVERSITY

Abstract

Humans have elevated global extinction rates and thus lowered global scale species richness. However, there is no a priori reason to expect that losses of global species richness should always, or even often, trickle down to losses of species richness at regional and local scales, even though this relationship is often assumed. Here, we show that scale can modulate our estimates of species richness change through time in the face of anthropogenic pressures, but not in a unidirectional way. Instead, the magnitude of species richness change through time can increase, decrease, reverse, or be unimodal across spatial scales. Using several case studies, we show different forms of scale‐dependent richness change through time in the face of anthropogenic pressures. For example, Central American corals show a homogenization pattern, where small scale richness is largely unchanged through time, while larger scale richness change is highly negative. Alternatively, birds in North America showed a differentiation effect, where species richness was again largely unchanged through time at small scales, but was more positive at larger scales. Finally, we collated data from a heterogeneous set of studies of different taxa measured through time from sites ranging from small plots to entire continents, and found highly variable patterns that nevertheless imply complex scale‐dependence in several taxa. In summary, understanding how biodiversity is changing in the Anthropocene requires an explicit recognition of the influence of spatial scale, and we conclude with some recommendations for how to better incorporate scale into our estimates of change. [ABSTRACT FROM AUTHOR]

Published

2019

21. Systematic variation in North American tree species abundance distributions along macroecological climatic gradients.

Author

Matthews, Thomas J., Sadler, Jon P., Kubota, Yasuhiro, Woodall, Christopher W., Pugh, Thomas A. M., and Isaac, Nick

Subjects

MACROECOLOGY, SPECIES distribution, ENDANGERED species, SPECIES diversity, TEMPERATURE effect, SPATIAL variation

Abstract

Aim: The species abundance distribution (SAD) is a fundamental pattern in macroecology. Understanding how SADs vary spatially, and identifying the variables that drive any change, is important from a theoretical perspective because it enables greater understanding of the factors that underpin the relative abundance of species. However, precise knowledge on how the form of SADs varies across large (continental) scales is limited. Here, we use the shape parameter of the gambin distribution to assess how meta‐community‐scale SAD shape varies spatially as a function of various climatic variables and dataset characteristics. Location: Eastern North America (ENA). Time period: Present day. Major taxa studied: Trees. Methods: Using an extensive continental‐scale dataset of 863,930 individual trees in plots across ENA sampled using a standardized method, we use a spatial regression framework to examine the effect of temperature and precipitation on the form of the SAD. We also assess whether the prevalence of multimodality in the SAD varies spatially across ENA as a function of temperature and precipitation, in addition to other sample characteristics. Results: We found that temperature, precipitation and species richness can explain two‐thirds of the variation in tree SAD form across ENA. Temperature had the largest effect on SAD shape, and it was found that increasing temperature resulted in more logseries‐like SAD shapes (i.e. SADs with a relatively higher proportion of rarer species). We also found spatial variation in SAD multimodality as a function of temperature and species richness. Main conclusions: Our results indicate that temperature is a key environmental driver governing the form of ENA tree meta‐community‐scale SADs. This finding has implications for our understanding of local‐scale variation in tree abundance and suggests that niche factors and environmental filtering are important in the structuring of ENA tree communities at larger scales. [ABSTRACT FROM AUTHOR]

Published

2019

22. Environmental filtering explains a U‐shape latitudinal pattern in regional β‐deviation for eastern North American trees.

Author

Xing, Dingliang, He, Fangliang, and Buckley, Lauren

Subjects

TREES, BIODIVERSITY, FORESTS & forestry, SPECIES distribution, SPECIES, SPECIES diversity

Abstract

The underlying drivers of β‐diversity along latitudinal gradients have been unclear. Previous studies have focused on β‐diversities calculated at a local scale and shed limited light on regional β‐diversity. We tested the much‐debated effects of range size vs. environmental filtering on the β‐gradient using data from the US Forest Inventory Analysis Program. We showed that the drivers of the β‐gradient were scale dependent. At the local scale species spatial patterns contributed little to the β‐gradient, whereas at the regional scale spatial patterns dominated the gradient and a U‐shape latitudinal relationship for the standardised β‐diversity deviation was revealed. The relationship can be explained by spatial variation in climate and soil texture, thus supporting the environmental filtering hypothesis. But it is inconsistent with Rapoport's rule about the effect of range size on β‐gradient. These results resolve the debate on whether species spatial distributions contribute to β‐gradient and attest the importance of environmental filtering in determining regional β‐diversity. [ABSTRACT FROM AUTHOR]

Published

2019

23. Phylogenetic and functional underdispersion in Neotropical phyllostomid bat communities.

Author

Presley, Steven J., Cisneros, Laura M., Higgins, Christopher L., Klingbeil, Brian T., Scheiner, Samuel M., and Willig, Michael R.

Subjects

PHYLLOSTOMIDAE, PHYLOGENY, HABITATS, MAMMALS, LAND cover, SPECIES diversity

Abstract

Copyright of Biotropica is the property of Wiley-Blackwell 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

2018

24. Environmental optimality, not heterogeneity, drives regional and local species richness in lichen epiphytes.

Author

Coyle, Jessica R. and Hurlbert, Allen H.

Subjects

LICHENS, EPIPHYTES, ECOLOGICAL heterogeneity, SPECIES diversity

Abstract

Aim We evaluate the scale dependence of species richness-environment relationships with a continent-wide analysis of lichen epiphyte communities. Specifically, our goals are to assess: (1) the dependence of local richness on regional processes, (2) whether species richness is primarily influenced by heterogeneity in environmental conditions or the central tendency of those conditions, and (3) whether the relative influence of these different aspects of the environment differs between local communities and regional species pools. Location Forests of the contiguous United States. Methods We used variation partitioning and model averaging of linear models to relate macrolichen richness at 1923 forest inventory plots (c. 4000 m2) to measures of environmental heterogeneity and mean conditions at local and regional scales. Data included 17 local environmental variables and 11 regional-scale variables which were obtained from a national forest inventory, herbarium records and several climate data sources. Results Regional-scale variables explained more unique variation in local species richness and generally had stronger effects than variables measured locally. However, most variation in local richness was explained jointly by local and regional variables. At both local and regional scales, variables measuring environmental heterogeneity explained little variation in species richness and had weaker effects than variables characterizing mean environmental conditions. Main conclusions Species richness of epiphytic macrolichens is not regulated by environmental heterogeneity locally or regionally and instead tracks large-scale climate gradients of water availability and temperature. Richness in local communities is influenced by processes operating at both regional and local scales, highlighting the importance of determining large-scale drivers of lichen richness across the North American continent. This research demonstrates a general method for comparing the influence of different aspects of the environment on species richness across scales and should be applicable to many different taxonomic groups. [ABSTRACT FROM AUTHOR]

Published

2016

25. Effects of canopy composition and disturbance type on understorey plant assembly in boreal forests.

Author

Fourrier, Arnaud, Bouchard, Mathieu, Pothier, David, and Collins, Beverly

Subjects

SPECIES diversity, SPRUCE budworm, CHORISTONEURA, OLD growth forests

Abstract

Questions What are the relative roles of disturbance type and canopy composition on understorey plant assemblages? Are these two environmental filters of equal importance in driving understorey patterns? Does a trait-based approach improve understanding of plant assemblage responses in disturbed boreal forests? Location Eastern boreal forests of North America, Québec, Canada. Methods We sampled understorey plant assemblages in ca. 30-yr-old forest stands originating from three types of disturbance (clear-cutting, fire and spruce budworm outbreak) and two dominant canopy compositions (coniferous and deciduous). For each disturbance × canopy combination, at least eight stands were sampled. The results were analysed with a combination of multivariate ( RDA, PERMANOVA), univariate (IndVal) and trait-based (fourth-corner) approaches. Results Overall, canopy composition was a more important driver than disturbance type for understorey plant communities. Species richness and particularly the abundance of herbaceous species were highest under deciduous canopies, whereas bryophytes and lichens were more diverse and abundant under coniferous canopies. Light-demanding species with abundant seed production were mostly restricted to deciduous canopies. Some patterns were also explained by disturbance type, but these were mostly associated with the presence/absence of non-abundant species or species groups such as lichens. Conclusions We propose that the higher effect of canopy composition compared with disturbance type can be explained by two factors. First, the effect of canopy composition tends to remain present for decades during stand development, whereas the effect of the disturbance type tends to dissipate progressively after the stand-initiating disturbance. Second, in boreal forests, most understorey plant species possess reproduction strategies (such as vegetative reproduction) that make them well adapted to persist in stands affected by any type of disturbance. At the landscape level, maintaining the right proportion of deciduous and coniferous stands through forest management could ensure that understorey ecosystem processes and plant diversity are maintained. However, creating or maintaining specific post-disturbance attributes could be important for the conservation of species affiliated with specific substrates. [ABSTRACT FROM AUTHOR]

Published

2015

26. Shifts in trait means and variances in North American tree assemblages: species richness patterns are loosely related to the functional space.

Author

Šímová, Irena, Violle, Cyrille, Kraft, Nathan J. B., Storch, David, Svenning, Jens‐Christian, Boyle, Brad, Donoghue, John C., Jørgensen, Peter, McGill, Brian J., Morueta‐Holme, Naia, Piel, William H., Peet, Robert K., Regetz, Jim, Schildhauer, Mark, Spencer, Nick, Thiers, Barbara, Wiser, Susan, and Enquist, Brian J.

Subjects

SPECIES diversity, PLANT species, ENVIRONMENTAL impact analysis, PRECIPITATION (Chemistry)

Abstract

One of the key hypothesized drivers of gradients in species richness is environmental filtering, where environmental stress limits which species from a larger species pool gain membership in a local community owing to their traits. Whereas most studies focus on small-scale variation in functional traits along environmental gradient, the effect of large-scale environmental filtering is less well understood. Furthermore, it has been rarely tested whether the factors that constrain the niche space limit the total number of coexisting species. We assessed the role of environmental filtering in shaping tree assemblages across North America north of Mexico by testing the hypothesis that colder, drier, or seasonal environments (stressful conditions for most plants) constrain tree trait diversity and thereby limit species richness. We assessed geographic patterns in trait filtering and their relationships to species richness pattern using a comprehensive set of tree range maps. We focused on four key plant functional traits reflecting major life history axes (maximum height, specific leaf area, seed mass, and wood density) and four climatic variables (annual mean and seasonality of temperature and precipitation). We tested for significant spatial shifts in trait means and variances using a null model approach. While we found significant shifts in mean species' trait values at most grid cells, trait variances at most grid cells did not deviate from the null expectation. Measures of environmental harshness (cold, dry, seasonal climates) and lower species richness were weakly associated with a reduction in variance of seed mass and specific leaf area. The pattern in variance of height and wood density was, however, opposite. These findings do not support the hypothesis that more stressful conditions universally limit species and trait diversity in North America. Environmental filtering does, however, structure assemblage composition, by selecting for certain optimum trait values under a given set of conditions. [ABSTRACT FROM AUTHOR]

Published

2015

27. Considering species richness and rarity when selecting optimal survey traps: comparisons of semiochemical baited flight intercept traps for Cerambycidae in eastern North America.

Author

Dodds, Kevin J., Allison, Jeremy D., Miller, Daniel R., Hanavan, Ryan P., and Sweeney, Jon

Subjects

SEMIOCHEMICALS, INSECT baits & repellents, SPECIES diversity, INSECT flight, INSECT traps, CERAMBYCIDAE

Abstract

We compared standard multiple-funnel, modified multiple-funnel, intercept panel and canopy malaise ( SLAM) traps with top and bottom collecting cups for their effectiveness (species richness, rarity, abundance) at capturing Cerambycidae in eastern North America., Experiments were conducted in New York, Louisiana, Massachusetts and Georgia in 2011 and 2012. A combination of pheromones and host volatiles chosen to match local forest types were used as lures., Species richness tended to be higher in SLAM and modified funnel traps than standard funnel and intercept panel traps. SLAM traps also captured the highest number of species, unique species, rare (species accounting for ≤ 1% of total cerambycids at a site) and singleton species at each site., Individual-based rarefaction and sample-based species accumulation curves suggested that SLAM traps are more effective for capturing cerambycid species. For many estimates, modified funnel and funnel traps were lower than SLAM traps but greater than intercept panel traps for describing cerambycid communities., Modified funnel and SLAM traps generally captured the highest abundance of cerambycids but the response of the individual subfamily and species varied by trap type., SLAM traps should be considered as a strong tool to describe cerambycid communities when used in conjunction with pheromones and host volatiles. [ABSTRACT FROM AUTHOR]

Published

2015

28. Climatic niche breadth and species richness in temperate treefrogs.

Author

Chejanovski, Zachary A., Wiens, John J., and Ladle, Richard

Subjects

SPECIES diversity, TEMPERATE climate, HYLIDAE, DISPERSAL (Ecology), ECOLOGICAL niche

Abstract

Aim Patterns of species richness are often closely linked with climate, but the specific mechanisms by which species' climatic niches underlie large-scale richness patterns remain poorly understood. It has been hypothesized that reduced temperature seasonality in the tropics promotes the evolution of species with narrow temperature niche breadths, and that this hypothesis helps explain high tropical richness. However, the relationship between species' climatic niche breadths and species richness has yet to be tested. We have addressed this issue using treefrogs (Hylidae) in eastern North America. Location Eastern North America. Methods We characterized climatic niches and niche breadths for all 24 hylid species in eastern North America using temperature and precipitation variables. We then examined the relationships between species richness, climatic niche positions and climatic niche breadths using phylogenetic comparative methods. Results Species richness was negatively associated with mean climatic niche breadth, such that high-richness climates had species with narrower climatic niches. Our results also supported the roles of niche conservatism and the time-for-speciation effect in generating the relationship between climate and species richness in the region (more species in warm, wet regions that have been inhabited longer). Importantly, we show that the invasion of low-richness climates has occurred primarily through recent intraspecific niche expansion into these climates rather than evolution of species that are narrowly specialized for these conditions (although the two hylid clades studied showed somewhat different patterns). Main conclusions We found that climatic zones with high species richness contain more species with narrower climatic niche breadths. Our results suggest that this pattern arose because narrow climatic niche breadths restricted the dispersal of most hylid species out of the ancestral, warm, moist climatic zones, allowing more time for speciation to build up higher species richness in these zones. [ABSTRACT FROM AUTHOR]

Published

2014

29. Determinants of species abundance for eastern North American trees.

Author

Xing, Dingliang, Swenson, Nathan G., Weiser, Michael D., and Hao, Zhanqing

Subjects

SPECIES diversity, PLANT communities, PREDICTION theory, PHYTOGEOGRAPHY, SPECIES distribution, ECOLOGY

Abstract

Aim We aimed to quantify the relative contributions of trait-based selection and the flow of individuals across space created by differences in species abundance, i.e. mass effects, in determining local-scale species relative abundance ( SRA) at 0.07 ha, 1° grid cell and subregion grains. Location The eastern USA. Methods We coupled a maximum entropy model ( MaxEnt) with nine species-specific plant traits and a continental-scale forest inventory dataset to perform our analyses. Mass effects were estimated using the next grain size up as the metacommunity (or the eastern USA at the subregion grain, and also at the 1° grid cell grain in a fourth analysis). Permutation tests were conducted to test the significance of trait constraints. The Kullback- Leibler divergence index was used to decompose the information content in each assemblage SRA. Results Trait constraints were significant in predicting community structures at coarse scales, but were largely not significant at fine or medium scales. At the 0.07 ha grain little of the variation in local SRA can be explained by either trait constraints or a regional SRA. At the 1° grain c. 61% of the variation could be accounted for by a regional SRA represented by subregions. At the subregion grain c. 74% of the variation could be accounted for by trait constraints and the SRA of the entire study area. Main conclusions Our results suggest that the relative importance of community assembly processes is scale dependent. Estimated mass effects predominated at small spatial scales where environmental gradients were weak. Trait-based selection was hard to detect at small scales and was strongest at large scales where environmental gradients are stronger. The fact that, at all scales, mass effects accounted for more variation in assemblage SRA than trait-based selection in our analyses suggests that regional processes are important in determining community structures more locally. [ABSTRACT FROM AUTHOR]

Published

2014

30. Climate and species richness patterns of freshwater fish in North America and Europe.

Author

Griffiths, David, McGonigle, Chris, Quinn, Rory, and Dawson, Michael

Subjects

SPECIES diversity, FRESHWATER fishes, RAINFALL, SPATIAL variation, GLACIATION

Abstract

ABSTRACT Aim To investigate the effect of climatic, historical and spatial variables on species richness patterns in freshwater fish. Location North America and Europe. Methods Regional species lists were used to document the spatial richness patterns. Three realms, Europe and Pacific and Atlantic North America, were identified. The numbers of species, by habitat, migration and distributional range categories, were calculated and the contributions of regional mean and seasonal temperature and rainfall, historical (realm, glaciation), and spatial (area, elevational range) variables to predicting richness were assessed using boosted regression trees, model-averaging and spatially explicit models. Results The latitudinal temperature gradient is stronger than that for rainfall in the Atlantic realm whereas the rainfall gradient in Europe is independent of the temperature gradient. Species richness is more strongly correlated with temperature than rainfall, and the effects are stronger in the Atlantic realm than in Europe. The influence of environmental variables differs between habitat specialist and generalist species. Climate, particularly maximum monthly temperature, is the best predictor of richness in rivers whereas climate variables are less important than historical/spatial variables for diadromous species. Main conclusions Freshwater fish richness differences between realms follow differences in spatial climatic trends. The contributions of climatic, historical and spatial predictor variables vary with ecology: temperature is a better predictor than rainfall in river-dwellers. The richness gradient is driven more by physiological than by energetic constraints on species. The importance of history is probably underestimated because of correlations with climate variables. [ABSTRACT FROM AUTHOR]

Published

2014

31. Assessment of the relationships of geographic variation in species richness to climate and landscape variables within and among lineages of North American freshwater fishes.

Author

Knouft, Jason H. and Page, Lawrence M.

Subjects

FRESHWATER fishes, SPECIES diversity, ECOLOGICAL niche, BIOLOGICAL variation, SPECIES distribution, AUTOCORRELATION (Statistics)

Abstract

Aim Geographic variation in species richness is a well-studied phenomenon. However, the unique response of individual lineages to environmental gradients in the context of general patterns of biodiversity across broad spatial scales has received limited attention. The focus of this research is to examine relationships between species richness and climate, topographic heterogeneity and stream channel characteristics within and among families of North American freshwater fishes. Location The United States and Canada. Methods Distribution maps of 828 native species of freshwater fishes were used to generate species richness estimates across the United States and Canada. Variation in species richness was predicted using spatially explicit models incorporating variation in climate, topography and/or stream channel length and stream channel diversity for all 828 species as well as for the seven largest families of freshwater fishes. Results The overall gradient of species richness in North American freshwater fishes is best predicted by a model incorporating variables describing climate and topography. However, the response of species richness to particular climate or landscape variables differed among families, with models possessing the highest predictive ability incorporating data on climate, topography and/or stream channel characteristics within a region. Main conclusions The correlations between species richness and abiotic variables suggest a strong influence of climate and physical habitat on the structuring of regional assemblages of North American freshwater fishes. However, the relationship between these variables and species richness varies among families, suggesting the importance of phylogenetic constraints on the regulation of geographic distributions of species. [ABSTRACT FROM AUTHOR]

Published

2011

32. One, two and three-dimensional geometric constraints and climatic correlates of North American tree species richness.

Author

Murphy, Helen T., VanDerWal, Jeremy, and Lovett-Doust, Jon

Subjects

TREES, PLANT species, SPECIES diversity, CLIMATE change, PHYTOGEOGRAPHY, MID-domain effect

Abstract

The 'mid-domain effect' (MDE) has received much attention recently as a candidate explanation for patterns in species richness over large geographic areas. Mid-domain models generate a central peak in richness when species ranges are randomly placed within a bounded geographic area (i.e. the domain). The most common terrestrial mid-domain models published to date have been 1-D latitude or elevation models and 2-D latitude-longitude models. Here, we test 1-D, 2-D and 3-D mid-domain models incorporating latitude, longitude and elevation, and assess independent and concurrent effects of geometric constraints and climatic variables on species richness of North American trees. We use both the traditional 'global' regression models as well as geographically weighted regressions ('local' models) to examine local variation in the contribution of MDE and climatic variables to species richness across the domain. Our results show that in some dimensions the contribution of MDE to patterns of species richness can be quite substantial, and we show that in most cases a combination of MDE and climate predicted empirical species richness best in both local and global models. For the North American domain, MDE in the elevation dimension is clearly important in describing patterns of empirical species richness. We also show that the assumption of stationarity in global models is not met in the North American domain and that results of these models mask complex patterns in both the effect of MDE on richness and the response of species richness to climate. In particular we show the increased explanatory role of MDE in predicting species richness as domain edges are approached. Our results support the hypothesis that geometric constraints contribute to species richness patterns and we suggest the mid-domain effect should be considered alongside more traditional environmental correlates in understanding patterns of species diversity. [ABSTRACT FROM AUTHOR]

Published

2011

33. MOLECULAR PHYLOGENY AND BIOGEOGRAPHIC DIVERSIFICATION OF PARTHENOCISSUS (VITACEAE) DISJUNCT BETWEEN ASIA AND NORTH AMERICA.

Author

ZE-LONG NIE, HANG SUN, ZHI-DUAN CHEN, YING MENG, MANCHESTER, STEVEN R., and JUN WEN

Subjects

PHYLOGENY, BIOGEOGRAPHY, SPECIES diversity, VITACEAE

Abstract

• Premise of the study: Parthenocissus is a genus of the grape family Vitaceae and has a disjunct distribution in Asia and North America with members in both tropical and temperate regions. The monophyly of Parthenocissus has not yet been tested, and the species relationships and the evolution of its intercontinental disjunction have not been investigated with extensive sampling and molecular phylogenetic methods. • Methods: Plastid (trnL-F, rpsl6, and atpB-rbcL) and nuclear GA11 sequences of 56 accessions representing all 12 Parthenocissus species were analyzed with parsimony, likelihood, and Bayesian inference. Divergence times of disjunct lineages were estimated with relaxed Bayesian dating. Evolution of the leaflet number was assessed by tracing this character onto Bayesian trees using the Trace Character Over Trees option in the program Mesquite. • Key results: Parthenocissus is monophyletic and sister to the newly described segregate genus Yua. Two major clades within Parthenocissus are recognizable corresponding to their distribution in Asia and North America. The disjunction between the two continents is estimated to be at 21.64 (95% higher posterior densities 10.23-34.89) million years ago. • Conclusions: Parthenocissus is likely to have derived from the Eocene boreotropical element. Its current Asian-North American disjunction is dated to the early Miocene, congruent with fossil and paleoclimatic evidence. The tropical species is nested within the temperate clade and is inferred to have dispersed from the adjacent temperate regions. Parthenocissus and Yua are best treated as distinct genera. Leaflet number in this genus has a complex history and cannot be used as a character for infrageneric classification. [ABSTRACT FROM AUTHOR]

Published

2010

34. Tropical niche conservatism and the species richness gradient of North American butterflies.

Author

Hawkins, Bradford A. and DeVries, Philip J.

Subjects

BUTTERFLIES, SPECIES diversity, DIAPAUSE, PHYLOGENY, COLONIZATION (Ecology)

Abstract

Aim We explore the potential role of the ‘tropical conservatism hypothesis’ in explaining the butterfly species richness gradient in North America. Its applicability can be derived from the tropical origin of butterflies and the presumed difficulties in evolving the cold tolerance required to permit the colonization and permanent occupation of the temperate zone. Location North America. Methods Digitized range maps for butterfly species north of Mexico were used to map richness for all species, species with distributions north of the Tropic of Capricorn (Extratropicals), and species that also occupy the tropics (Tropicals). A phylogeny resolved to subfamily was used to map the geographical pattern of mean root distance, a metric of the evolutionary development of assemblages. Regression models and general linear models examined environmental correlates of overall richness and for Extratropicals vs. Tropicals, patterns in summer vs. winter, and patterns in northern vs. southern North America. Results Species in more basal subfamilies dominate the south, whereas more derived clades occupy the north. There is also a ‘latitudinal’ richness gradient in Canada/Alaska, whereas in the conterminous USA richness primarily varies longitudinally. Overall richness is associated with broad- and mesoscale temperature gradients. The richness of Tropicals is strongly associated with temperature and distance from winter population sources. The richness of Extratropicals in the north is most strongly correlated with the pattern of glacial retreat since the more recent Ice Age, whereas in the south, richness is positively associated with the range of temperatures in mountains and the presence of forests but is negatively correlated with the broad-scale temperature gradient. Main conclusions The tropical conservatism hypothesis provides a possible explanation for the complex structure of the species richness gradient. The Canada/Alaska fauna comprises temperate, boreal and tundra species that are nevertheless constrained by cold climates and limited vegetation, coupled with possible post-Pleistocene recolonization lags. In the USA tropical species are constrained by temperature in winter as well as recolonization distances in summer, whereas temperate-zone groups are richer in cooler climates in mountains and forests, where winter conditions are more suitable for diapause. The evolution of cold tolerance is key to both the evolutionary and ecological patterns. [ABSTRACT FROM AUTHOR]

Published

2009

35. Three-dimensional mid-domain predictions: geometric constraints in North American amphibian, bird, mammal and tree species richness patterns.

Author

VanDerWal, Jeremy, Murphy, Helen T., and Lovett-Doust, Jon

Subjects

SPECIES, COMBINATORIAL geometry, AMPHIBIANS, MAMMALS, BIODIVERSITY, SPECIES diversity, AUTOREGRESSION (Statistics), BIRDS

Abstract

The “mid-domain effect” (MDE) has received much attention as a candidate explanation for patterns in species richness over large geographic areas. Mid-domain models generate a central peak in richness when species ranges are placed randomly within a bounded geographic area (i.e. the domain). Until now, domain limits have been described mostly in one-dimension, usually latitude or elevation, and only occasionally in two-dimensions. Here we test 1-D, 2-D and, for the first time, 3-D mid-domain models and assess the effects of geometric constraints on species richness in North American amphibian, bird, mammal and tree species. Using spatially lagged simultaneous autoregressive models, empirical richness was predicted quite well by the mid-domain predictions and the spatial autoregressive term (45–92% R2). However, our results show that empirical species richness peaks do deviate from those of the MDE predictions in 3 dimensions. Variation explained (R2) by MDE predictions generally increased with increasing mean range size of the different biotic groups (from amphibian, to tree, mammal and finally bird data), and decreased with increasing dimensions being accounted for in the models. The results suggest geometric constraints alone can explain much of the variation in species richness with elevation, specifically with respect to the larger-range taxa, birds and mammals. Our analysis addresses many of the recent methodological criticisms directed at studies testing the MDE, and our results support the hypothesis that species diversity patterns are influenced by geometric constraints. [ABSTRACT FROM AUTHOR]

Published

2008

36. Tracing recent invasions of the Ponto-Caspian mysid shrimp Hemimysis anomala across Europe and to North America with mitochondrial DNA.

Author

Audzijonyte, Asta, Wittmann, Karl J., and Väinöl, Risto

Subjects

MYSIDAE, MITOCHONDRIAL DNA, CYTOCHROME oxidase, BIOLOGICAL invasions, SPECIES diversity, SPECIES distribution, NUCLEOTIDE sequence

Abstract

The mysid crustacean Hemimysis anomala (‘bloody-red shrimp’) is one of the most recent participants in the invasion of European inland waters by Ponto-Caspian species. Recently the species also became established in England and the Laurentian Great Lakes of North America. Using information from mitochondrial cytochrome oxidase I (COI) gene sequences, we traced the invasion pathways of H. anomala; the inferences were enabled by the observed phylogeographical subdivision among the source area populations in the estuaries of the Ponto-Caspian basin. The data distinguish two routes to northern and western Europe used by distinct lineages. One route has been to and through the Baltic Sea and further to the Rhine delta, probably from a population intentionally introduced to a Lithuanian water reservoir from the lower Dnieper River (NW Black Sea area) in 1960. The other lineage is derived from the Danube delta and has spread across the continent up the Danube River and further through the Main–Danube canal down to the Rhine River delta. Only the Danube lineage was found in England and in North America. The two lineages appear to have met secondarily and are now found intermixed at several sites in NW Europe, including the Rhine and waters linked with the man-made Mittellandkanal that interconnects the Rhine and Baltic drainage systems. [ABSTRACT FROM AUTHOR]

Published

2008

37. Ecological correlates of geographical range occupancy in North American birds.

Author

Hurlbert, Allen H. and White, Ethan P.

Subjects

BIRD surveys, SPECIES diversity, POPULATION density, HABITATS

Abstract

Aim The degree to which a species is predictably encountered within its range varies tremendously across species. Understanding why some species occur less frequently within their range than others has important consequences for conservation and for analyses of ecological patterns based on range maps. We examined whether patterns in geographical range occupancy can be explained by species-level traits. Location North America. Methods We used survey data from 1993 to 2002 from the North American Breeding Bird Survey along with digital range maps produced by NatureServe to calculate range occupancy for 298 species of terrestrial birds. We tested whether species traits explained variation in range occupancy values using linear regression techniques. Results We found three species traits that together explained more than half of the variation in range occupancy. Population density and niche breadth were positively correlated with occupancy, while niche position was negatively correlated with occupancy. Main conclusions Our results suggest that high range occupancy will occur in species that are common at sites on which they occur, that tolerate a relatively wide range of ecological conditions and that tend to have ranges centred on areas with common environmental conditions. Furthermore, it appears that niche-based characteristics may explain patterns of distribution and abundance from local habitats up to the scale of geographical ranges. [ABSTRACT FROM AUTHOR]

Published

2007

38. Species resistance and community response to wind disturbance regimes in northern temperate forests.

Author

Papaik, M. J. and Canham, C. D.

Subjects

WINDS, ECOLOGICAL disturbances, FORESTS & forestry, TREES, SPECIES diversity, PLANT migration, POPULATION dynamics, FOREST dynamics

Abstract

1 Severe winds are the predominant cause of natural disturbance in temperate forests of north-eastern and north-central North America. Conceptual models of the effects of wind disturbance have traditionally focused on the impacts of catastrophic disturbances and have painted a simple picture of how disturbance acts to maintain tree species diversity. These models ignore variation among species characteristics that could have important consequences for both resistance to and recovery from disturbance. 2 We integrated an empirically parameterized, mechanistic model of windstorm mortality (WINDSTORM) and a seed-mass-based dispersal and recruitment model into a spatially explicit, individual tree model of forest dynamics (SORTIE) in order to create simulated long-term ‘experiments’ designed to explore the sensitivity of forest composition and structure to species-specific resistance to and recovery from disturbance. 3 We found that species-specific variation in resistance to wind mortality interacted strongly with: (i) shade tolerance characteristics, (ii) the medium-term history of disturbances, (iii) the long-term average severity of the disturbance regime and (iv) seedbed substrate dynamics to influence tree population dynamics and successional trajectories. 4 We also examined how local and long-distance dispersal affect response to wind disturbance. Ignoring differences among local dispersal characteristics overestimates the importance of dispersal-limited species. Our results show that long-distance immigration maintains species coexistence only if the immigration rate is very high relative to local dispersal. Despite this, stand-scale models that ignore long-distance dispersal can underestimate population dynamics of dispersal-limited species. 5 Our results indicate that landscape-scale heterogeneity in structure and species composition in these forests is facilitated by synergisms between the stochastic nature of wind disturbance and complex interactions between species traits that govern: (i) resistance to disturbance, (ii) local dispersal and seedling establishment and (iii) competitive (i.e. growth/survival) traits that do not adhere to strict tradeoffs. 6 We conclude that wind disturbance has much more complex and variable effects on long-term dynamics of forest structure and composition than suggested by previous models. In particular, non-catastrophic disturbances can generate important variation in forest dynamics that can either lead to dominance by a single or small number of species, or facilitate species coexistence. [ABSTRACT FROM AUTHOR]

Published

2006

39. Beta diversity and latitude in North American mammals: testing the hypothesis of covariation.

Author

Rodríguez, Pilar and Arita, Héctor T.

Subjects

SPECIES diversity, BIODIVERSITY, LATITUDE, HYPOTHESIS, SPECIES

Abstract

Several hypotheses attempt to explain the latitudinal gradient of species diversity, but some basic aspects of the pattern remain insufficiently explored, including the effect of scales and the role of beta diversity. To explore such components of the latitudinal gradient, we tested the hypothesis of covariation, which states that the gradient of species diversity should show the same pattern regardless of the scale of analysis. The hypothesis implies that there should be no gradients of beta diversity, of regional range size within regions, and of the slope of the species-area curve. For the fauna of North American mammals, we found contrasting results for bats and non-volant species. We could reject the hypothesis of covariation for non-volant mammals, for which the number of species increases towards lower latitudes, but at different rates depending on the scale. Also, for this group, beta diversity is higher at lower latitudes, the regional range size within regions is smaller at lower latitudes, and z, the slope of the species-area relationship is higher at lower latitudes. Contrarily bats did not show significant deviations from the predictions of the hypothesis of covariation: at two different scales, species richness shows similar trends of increase at lower latitudes, and no gradient can be demonstrated for beta diversity, for regional range size, or for the slopes of the species-area curve. Our results show that the higher diversity of non-volant mammals in tropical areas of North America is a consequence of the increase in beta diversity and not of higher diversity at smaller scales. In contrast, the diversity of bats at both scales is higher at lower latitudes. These contrasting patterns suggest different causes for the latitudinal gradient of species diversity in the two groups that are ultimately determined by differences in the patterns of geographic distribution of the species. [ABSTRACT FROM AUTHOR]

Published

2004

40. Weak links: 'Rapoport's rule' and large-scale species richness patterns.

Author

Kerr, Jeremy T.

Subjects

SPECIES diversity, BIODIVERSITY, LATITUDE

Abstract

Many hypotheses have been proposed to explain regional species richness patterns. Among these, 'Rapoport's rule' has sparked considerable controversy by stating that the latitudinal gradient in species richness can be explained indirectly as a function of narrower geographic ranges for species at low latitudes. Annual climatic variability, or deviation from mean climatic conditions, has been hypothesized to moderate this phenomenon. Furthermore, taxa that avoid much of this seasonality, such as temperate zone insects that enter diapause or species that migrate, were predicted to show reduced latitudinal gradients in richness. I test the suggested link between 'Rapoport's rule' and species richness for two higher level insect taxa as well as for the class Mammalia. Although these taxa exhibit the well-known latitudinal gradient in species richness, simple annual climatic variability and deviation from mean annual climatic conditions provide very poor predictions of species richness in each of them. Potential evapotranspiration, a measurement of ambient climatic energy, explains most of the observed variance in regional species richness patterns for all three taxa, consistent with the species richness-energy hypothesis. I find no support for an indirect link between 'Rapoport's rule' and terrestrial species richness patterns in North America. [ABSTRACT FROM AUTHOR]

Published

1999

41. Species diversity and latitudes: listening to area's signal

Author

Rosenzweig, M. L. and Sandlin, E. A.

Subjects

MAMMALS, SPECIES diversity

Published

1997

42. Declining woodland birds in North America: should we blame Bambi?

Author

Chollet, Simon and Martin, Jean‐Louis

Subjects

FOREST birds, UNDERSTORY plants, TROPHIC cascades, SPECIES diversity, SENSITIVITY analysis

Abstract

Aim We evaluate the possible link between increasing deer populations and declines in woodland birds. Location North American continent. Methods We used a group of 73 forest bird species that had been tested for their sensitivity to the impact of overabundant deer on forest understory. We used Breeding Bird Survey data to assess population trends for these 73 songbird species between 1966 and 2009, a period of marked continent-wide increases in white-tailed ( Odocoileus virginianus) and mule or black-tailed ( Odocoileus hemionus) deer. Results We show a continent-wide link between increase in deer populations and declines in forest-songbird species-dependent on understory for nesting and/or foraging. Main conclusions Increasing deer populations may actually play an important and underestimated role in the decline of North American songbirds. [ABSTRACT FROM AUTHOR]

Published

2013

43. Impacts of dominant plant species on trait composition of communities: comparison between the native and invaded ranges.

Author

Hejda, Martin, Štajerová, Kateřina, Pergl, Jan, and Pyšek, Petr

Subjects

CHEATGRASS brome, PLANT species, BIOLOGICAL invasions, PLANT invasions, SPECIES diversity, COMMUNITIES, LEAF area

Abstract

Most studies on the impacts of plant invasions focus on species richness or diversity of invaded communities, but much less attention has been paid to structural changes such as the representation of species with different traits. To bridge this knowledge gap, we assess the impact of dominant species on the trait composition of recipient communities (i.e., how species with certain height, seed mass, specific leaf area, clonality, and life form are represented in the vegetation plots sampled). We sampled vegetation that comprised three species native to Eurasia and invasive in North America (i.e., Agrostis capillaris, Bromus tectorum, and Cirsium arvense) and three species native to North America and invasive in Europe (i.e., Aster novi‐belgii, Lupinus polyphyllus, and Solidago canadensis), in both their native and invaded ranges. This study system based on reciprocal inter‐continental invasions allowed us to assess whether the impact on trait composition differed (1) between the native and invaded ranges and (2) between the two continents. The relationships between species' dominance and trait composition were tested using linear mixed‐effect models and ordination methods. A general trend was that dominant species with an impact on species richness also had an impact on trait composition, especially in North America, where even the native dominants affected the trait composition of the community. Further, the impact of Eurasian dominants in North America was stronger than that associated with the opposite direction of invasion, due to a strong negative effect of Eurasian invaders on local tall clonal perennials. Our results show that (1) the traits of species in the invaded community co‐determine the impact of invasion and are related to the impacts on species richness and composition; (2) the impacts on trait composition differ between the native and invaded ranges; and (3) the direction of invasion affects the impact on trait composition. [ABSTRACT FROM AUTHOR]

Published

2019

44. Benthic pterobranchs from the Cambrian (Drumian) Marjum Konservat‐Lagerstätte of Utah.

Author

Lerosey‐Aubril, Rudy, Maletz, Jörg, Coleman, Robert, Del Mouro, Lucas, Gaines, Robert R., Skabelund, Jacob, and Ortega‐Hernández, Javier

Subjects

ANIMAL communities, SPECIES diversity, FOSSILS, BIOTIC communities

Abstract

Pterobranchs are rare in Cambrian strata of North America despite discoveries of more than 30 exceptionally preserved fossil biotas. Miaolingian pterobranchs from this continent typically form low‐diversity and low‐abundance assemblages. Here we describe an abundant pterobranch material from the Drumian Marjum Formation recently collected at the Gray Marjum Quarry in the House Range of Utah, USA. The faunule is composed of two new species: Sphenoecium marjumensis, an encrusting representative forming compact bushy colonies of more than 80 tubes with poorly developed rhizomes, and Tarnagraptus cupidus, an erect growing taxon characterized by intertwining stems and a monopodial colonial growth. Known in extant rhabdopleurids, this mode of colonial growth had hitherto never been observed in fossil pterobranchs. Its documentation in a c. 500‐myr‐old taxon attests to its deep origin in the evolutionary history of the group. Although the new species almost exclusively occur in the Marjum strata, this pterobranch faunule is broadly similar to those recovered from other Miaolingian Burgess Shale‐type deposits of North America in terms of genus‐level composition, species richness, and ecological structure. This may indicate that pterobranchs were poorly diverse components of animal communities at that time, or that they mostly thrived in more proximal shelf environments where conditions conducive to their preservation rarely developed. The common co‐occurrence of taxa with fundamentally different ecomorphotypes in the Miaolingian Series of North America strongly suggests an earlier phase of morphological diversification of benthic pterobranchs during the early Cambrian, which remains insufficiently documented by fossils. [ABSTRACT FROM AUTHOR]

Published

2024