Your search keyword '"Long Distance Dispersal"' showing total 314 results

1. Cenozoic colonisation of the Indian Ocean region by the Australian freshwater-originating glassperch family Ambassidae (Teleostei)

Author

Ghazali, Siti Zafirah, Lavoué, Sébastien, Sukmono, Tedjo, Habib, Ahasan, Tan, Min Pau, and Nor, Siti Azizah Mohd

Published

2023

2. Does rafting promote contemporary gene flow? Global and regional patterns of population genetic diversity and structure on the false limpet Siphonaria lateralis in the Southern Ocean.

Author

Millán-Medina, Constanza, Lizama, Marcelo, Saucède, Thomas, Poulin, Elie, Segovia, Nicolás I., González-Wevar, Claudio, De Jode,, Aurélien, and Amador, Luis

Subjects

ANTARCTIC Circumpolar Current, POPULATION differentiation, GENE flow, LARVAL dispersal, GENETIC variation

Abstract

Rafting has been proposed as an effective mechanism for species without freeliving pelagic larvae to achieve long-distance dispersal, theoretically preventing population differentiation over wide distributional ranges. Moreover, rafting has been advocated as a main dispersal mechanism for marine invertebrates with sub-Antarctic distributions, because of abundant buoyant kelps, driven by the Antarctic Circumpolar Current. Nonetheless, little attention has been given to the role of rafting to establish regular gene flow across the sub-Antarctic, and the geographic and temporal scales at which it occurs. Aiming to unravel these major questions about the extent of genetic connectivity across the Southern Ocean (SO), we studied the pulmonate limpet Siphonaria lateralis, a benthic species with encapsulated larvae, found on the rocky intertidal of sub-Antarctic islands and southern South America. Since S. lateralis is closely associated with D. antarctica, dispersal by rafting is plausible, as revealed by the absence of phylogeographic structure across the sub-Antarctic. We sampled 116 individuals from eight localities across the SO, and used 5,515 SNPs obtained through Genotyping-by-Sequencing, to determine contemporary genetic diversity, structure, and gene flow at two spatial scales; global, across the SO, and regional, within Kerguelen. Results identified substantial genetic structure, differentiating Patagonia, Falklands/Malvinas Islands, South Georgia and the Kerguelen archipelago, and low levels of contemporary gene flow. The most notable genetic differentiation was found between Patagonia/Falklands and South Georgia/Kerguelen. Structure was also significant between Patagonia and the Falkland/Malvinas Islands. Conversely, South Georgia and Kerguelen exhibited closer genetic affinity, and indications of recent but limited gene flow. Moreover, historical gene flow estimates between the four populations were low. At regional scale, noteworthy genetic structure persisted, and gene flow was insufficient to prevent genetic differentiation within Kerguelen. Consequently, rafting's potential may be overestimated as a contemporary mechanism promoting gene flow across the SO, as these events may be sporadic, irregular, and unpredictable for marine invertebrates lacking a larval dispersal stage, since contemporary dispersal events don't seem to facilitate high gene flow at both scales. Accordingly, other oceanographic factors or processes may hinder the establishment of species associated with macroalgae, and as consequence, contemporary genetic connectivity in the sub-Antarctic. [ABSTRACT FROM AUTHOR]

Published

2024

3. Parallel patterns of genetic diversity and structure in circumboreal species of the Sphagnum capillifolium complex.

Author

Imwattana, Karn, Aguero, Blanka, Nieto‐Lugilde, Marta, Duffy, Aaron, Jaramillo‐Chico, Juan, Hassel, Kristian, Afonina, Olga, Lamkowski, Paul, and Jonathan Shaw, A.

Subjects

*GENETIC variation, *LAST Glacial Maximum, *PEAT mosses, *SPECIES, *TUNDRAS, *PLANT anatomy, *BOGS

Abstract

Premise: Shared geographical patterns of population genetic variation among related species is a powerful means to identify the historical events that drive diversification. The Sphagnum capillifolium complex is a group of closely related peat mosses within the Sphagnum subgenus Acutifolia and contains several circumboreal species whose ranges encompass both glaciated and unglaciated regions across the northern hemisphere. In this paper, we (1) inferred the phylogeny of subg. Acutifolia and (2) investigated patterns of population structure and genetic diversity among five circumboreal species within the S. capillifolium complex. Methods: We generated RAD sequencing data from most species of the subg. Acutifolia and samples from across the distribution ranges of circumboreal species within the S. capillifolium complex. Results: We resolved at least 14 phylogenetic clusters within the S. capillifolium complex. Five circumboreal species show some common patterns: One population system comprises plants in eastern North America and Europe, and another comprises plants in the Pacific Northwest or around the Beringian and Arctic regions. Alaska appears to be a hotspot for genetic admixture, genetic diversity, and sometimes endemic subclades. Conclusions: Our results support the hypothesis that populations of five circumboreal species within the S. capillifolium complex survived in multiple refugia during the last glacial maximum. Long‐distance dispersal out of refugia, population bottlenecks, and possible adaptations to conditions unique to each refugium could have contributed to current geographic patterns. These results indicate the important role of historical events in shaping the complex population structure of plants with broad distribution ranges. [ABSTRACT FROM AUTHOR]

Published

2024

4. Does rafting promote contemporary gene flow? Global and regional patterns of population genetic diversity and structure on the false limpet Siphonaria lateralis in the Southern Ocean

Author

Constanza Millán-Medina, Marcelo Lizama, Thomas Saucède, Elie Poulin, Nicolás I. Segovia, and Claudio González-Wevar

Subjects

long distance dispersal, sub-Antarctic, rafting, Antarctic Circumpolar Current, benthic protected development, Genotyping-by-Sequencing, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Rafting has been proposed as an effective mechanism for species without free-living pelagic larvae to achieve long-distance dispersal, theoretically preventing population differentiation over wide distributional ranges. Moreover, rafting has been advocated as a main dispersal mechanism for marine invertebrates with sub-Antarctic distributions, because of abundant buoyant kelps, driven by the Antarctic Circumpolar Current. Nonetheless, little attention has been given to the role of rafting to establish regular gene flow across the sub-Antarctic, and the geographic and temporal scales at which it occurs. Aiming to unravel these major questions about the extent of genetic connectivity across the Southern Ocean (SO), we studied the pulmonate limpet Siphonaria lateralis, a benthic species with encapsulated larvae, found on the rocky intertidal of sub-Antarctic islands and southern South America. Since S. lateralis is closely associated with D. antarctica, dispersal by rafting is plausible, as revealed by the absence of phylogeographic structure across the sub-Antarctic. We sampled 116 individuals from eight localities across the SO, and used 5,515 SNPs obtained through Genotyping-by-Sequencing, to determine contemporary genetic diversity, structure, and gene flow at two spatial scales; global, across the SO, and regional, within Kerguelen. Results identified substantial genetic structure, differentiating Patagonia, Falklands/Malvinas Islands, South Georgia and the Kerguelen archipelago, and low levels of contemporary gene flow. The most notable genetic differentiation was found between Patagonia/Falklands and South Georgia/Kerguelen. Structure was also significant between Patagonia and the Falkland/Malvinas Islands. Conversely, South Georgia and Kerguelen exhibited closer genetic affinity, and indications of recent but limited gene flow. Moreover, historical gene flow estimates between the four populations were low. At regional scale, noteworthy genetic structure persisted, and gene flow was insufficient to prevent genetic differentiation within Kerguelen. Consequently, rafting’s potential may be overestimated as a contemporary mechanism promoting gene flow across the SO, as these events may be sporadic, irregular, and unpredictable for marine invertebrates lacking a larval dispersal stage, since contemporary dispersal events don’t seem to facilitate high gene flow at both scales. Accordingly, other oceanographic factors or processes may hinder the establishment of species associated with macroalgae, and as consequence, contemporary genetic connectivity in the sub-Antarctic.

Published

2024

5. Unintentional human‐vectored dispersal contributes to the spread of high risk weed species.

Author

Ansong, Michael

Subjects

*NOXIOUS weeds, *SEED dispersal, *PLANT invasions, *WEED competition, *SPECIES, *PLANT species, *BALLAST water

Abstract

Naturalisation risk and the vulnerability of many countries to future plant invasions is predicted to increase with human movement and climate change. Unfortunately, the geographical limitation on studies assessing unintentional human‐vectored dispersal (HVD) has hampered progress in understanding its importance, particularly its probability of introducing species that will become naturalised or invasive. The current paper used an explorative approach to determine if human clothing and vehicles disperse species with higher potential to become invasive globally. The study specifically relies on available database of unintentional human‐vectored seed dispersal and recent studies that considered the outcomes of plant species' interaction with humans around the world. The results indicate that human vehicles and clothing contribute to the spread of many extreme risk and most naturalised species of the world. For example, 55% of the 200 most naturalised species have been reported to be dispersed on vehicle while almost one ‐third (32%) have been reported to be dispersed on clothing. Also, of the 235 extreme risk species 41% have been reported to be dispersed on vehicles and 31% on clothing. The results indicate that graminoids, herbs and species with long‐term seed bank are more dispersed via HVD. Conservation managers and practitioners should consider the role of human‐vectored seed dispersal in the spread of invasive weeds, especially in popular and frequently visited areas. Individuals embracing responsible travel practices and adopting proactive measures and protocols to prevent the accidental transport of seeds can significantly enhance our conservation endeavours in our interconnected global ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

6. Does bird life-history influence the prevalence of ticks? A citizen science study in North East Spain

Author

Jesus Veiga, Oriol Baltà, and Jordi Figuerola

Subjects

Tick prevalence, Host-pathogen interactions, Parasite incidence, Migrant birds, Long distance dispersal, Gregariousness, Medicine (General), R5-920

Abstract

After mosquitoes, ticks are among the most important vector of pathogens of concern for animal and public health, but unless mosquitoes ticks remain attached to their hosts for long time periods providing an opportunity to analyse their role in the dispersal and dynamics of different zoonotic pathogens. Given their interest in public health it is important to understand which factors affect their incidence in different hosts and to stablish effective surveillance programs to determine the risk of transmission and spill-over of zoonotic pathogens. Taking benefit of a large network of volunteer ornithologists, we analysed the life-history traits associated to the presence of ticks using information of 620,609 individuals of 231 avian species. Bird phylogeny, locality and year explained a large amount of variance in tick prevalence. Non-colonial species non breeding in grasslands and non-spending the non-breeding season as gregarious groups or isolated individuals (e.g. thrushes, quails and finches) had the higher prevalence of ticks and appear as good candidates for zoonosis surveillance programs based on the analyses of ticks collected from wild birds. Ringers underestimated tick prevalence but can be considered as an important source of information of ticks for public and animal health surveillance programs if properly trained for the detection and collection of the different tick development phases.

Published

2024

7. Global benefits and domestic costs of a cooperative surveillance strategy to control transboundary crop pathogens

Author

Andrea Radici, Davide Martinetti, and Daniele Bevacqua

Subjects

crop protection, long distance dispersal, network, Puccinia graminis, transboundary surveillance, Environmental sciences, GE1-350, Botany, QK1-989

Abstract

Societal Impact Statement Surveillance of plant pathogens is usually designed according to country boundaries. Benefits of a global surveillance system to tackle long‐distance dispersed crop pathogens are unquantified. Here, a ‘non‐cooperative’ and a ‘cooperative’ strategy are compared in terms of minimizing the surveillance effort to achieve given domestic and global targets. Although a ‘cooperative’ strategy is always more suitable, impacts of its adoption are not equally distributed among countries. Medium‐sized countries in central Europe and Asia would benefit the most from reducing the domestic effort, whereas others would need to deploy more sentinels than they would place in their own interests. Summary Transboundary diseases are extremely complex to control and can cause global socio‐economic damage. In the context of crop protection, surveillance strategies are usually designed according to country boundaries, regardless of the spatial scale of the spread of the disease. In this study, we investigate the suitability of this scale for surveilling long‐distance dispersed pathogens. We use an epidemic network describing worldwide potential transport of Puccinia graminis, the causal agent of stem rust of wheat, modelled in a previous work. Based on network properties, we conceive two strategies for prioritizing areas to be monitored for the presence of the disease, either cooperative or each country alone, and we compare their performances in terms of minimizing the effort deployed in achieving given surveillance targets at global and domestic level. We find that a cooperative strategy is more efficient at the global scale. However, its adoption implies a heterogeneous geographic distribution of surveillance effort‐related costs and benefits. Medium‐sized countries in central Europe and Asia would benefit the most; on the other hand, countries placed in important spreading pathways should deploy more surveillance effort than they would place without cooperation. Among the major wheat producers, China is the only country that may have a cost from a cooperative strategy, whereas India, Russia, the United States, France and Ukraine would have the most benefits. The acknowledgement of how costs and benefits of a global governance would be shared among countries is needed to gain unanimous support for an international cooperative surveillance system.

Published

2023

8. Global benefits and domestic costs of a cooperative surveillance strategy to control transboundary crop pathogens.

Author

Radici, Andrea, Martinetti, Davide, and Bevacqua, Daniele

Abstract

Societal Impact Statement: Surveillance of plant pathogens is usually designed according to country boundaries. Benefits of a global surveillance system to tackle long‐distance dispersed crop pathogens are unquantified. Here, a 'non‐cooperative' and a 'cooperative' strategy are compared in terms of minimizing the surveillance effort to achieve given domestic and global targets. Although a 'cooperative' strategy is always more suitable, impacts of its adoption are not equally distributed among countries. Medium‐sized countries in central Europe and Asia would benefit the most from reducing the domestic effort, whereas others would need to deploy more sentinels than they would place in their own interests. Summary: Transboundary diseases are extremely complex to control and can cause global socio‐economic damage. In the context of crop protection, surveillance strategies are usually designed according to country boundaries, regardless of the spatial scale of the spread of the disease.In this study, we investigate the suitability of this scale for surveilling long‐distance dispersed pathogens. We use an epidemic network describing worldwide potential transport of Puccinia graminis, the causal agent of stem rust of wheat, modelled in a previous work. Based on network properties, we conceive two strategies for prioritizing areas to be monitored for the presence of the disease, either cooperative or each country alone, and we compare their performances in terms of minimizing the effort deployed in achieving given surveillance targets at global and domestic level.We find that a cooperative strategy is more efficient at the global scale. However, its adoption implies a heterogeneous geographic distribution of surveillance effort‐related costs and benefits. Medium‐sized countries in central Europe and Asia would benefit the most; on the other hand, countries placed in important spreading pathways should deploy more surveillance effort than they would place without cooperation. Among the major wheat producers, China is the only country that may have a cost from a cooperative strategy, whereas India, Russia, the United States, France and Ukraine would have the most benefits.The acknowledgement of how costs and benefits of a global governance would be shared among countries is needed to gain unanimous support for an international cooperative surveillance system. [ABSTRACT FROM AUTHOR]

Published

2023

9. Direct evidence for intercontinental dispersal of a snail via a bird.

Author

Saito, Takumi, Tatani, Masanori, Odaya, Yoshiya, and Chiba, Satoshi

Subjects

*MIGRATION flyways, *FRESHWATER snails

Abstract

Long‐distance dispersal (LDD) is a critical process in the distribution of less‐migratory organisms. Migratory birds are considered the principal vector of LDD, especially over extremely long distances such as between continents. However, there has been no evidence of LDD spanning thousands of kilometers, even via birds. In this study, we collected a freshwater snail attached to a Latham's snipe. This snail was identified as the genus Glyptophysa through morphological and molecular identification based on four genetic regions. Considering the migration route of the bird and the distribution of the molluscan genus, we conclude that the snail was attached to a bird which migrated over 4000 km across the ocean. This finding demonstrates the LDD on an intercontinental scale of an organism via a migratory bird, which many biologists have long presumed to occur. [ABSTRACT FROM AUTHOR]

Published

2023

10. Seawater resistance in sweet potato (Ipomoea batatas) seeds: a key factor for natural dispersal from the Americas to Oceania

Author

Andrade Pereira, Débora, Ferreira Nunes, Hendrie, Ruiz Pessenda, Luiz C., and Oliveira, Giancarlo C. X.

Subjects

biogeography, French Polynesia, geographic distribution, germination, historical biogeography, hydrochory, Ipomoea batatas, long distance dispersal, Pacific Ocean, pre-Columbian contacts, salinity tolerance, sweet potato

Abstract

Sweet potato dispersal from Americas to French Polynesia predates known human colonization periods, therefore being a long-standing dilemma. According to recent phylogenetic studies, the most likely hypothesis to explain this migration is the sea-drift long-distance dispersal, but no research indicating the response of I. batatas seeds to seawater conditions have been performed so far. The aim of this study was to understand seawater resistance in I. batatas, an essential feature for the sea-drift natural dispersal hypothesis, thus shedding light on the historical biogeography of this species, which also has implications on human civilization history, as the archaeological presence of sweet potato in both continents has been used as an evidence of pre-Columbian contacts between ancient civilizations. The experiment consisted of submitting sweet potato seeds to seawater treatments and observing the respective germination rates after different periods of immersion. Subsequently, one-way ANOVAs were conducted to test for significant differences between groups. All seeds from the seawater immersion treatments germinated, which confirms that I. batatas seeds are resistant to seawater salinity for a period of 120 days. Our results support the sea-drift natural dispersal hypothesis, thus shedding light on part of the logical conditions for one of the major hypotheses on the historical biogeography of this species, which also plays an important role in the discussions related to prehistorical human mobility in Polynesian islands.

Published

2020

11. In the wind: Invasive species travel along predictable atmospheric pathways.

Author

Pretorius, Ilze, Schou, Wayne C., Richardson, Brian, Ross, Shane D., Withers, Toni M., Schmale, David G., and Strand, Tara M.

Subjects

INTRODUCED species, INTRODUCED insects, FALL armyworm, PLANT health, BIOSECURITY

Abstract

Invasive species such as insects, pathogens, and weeds reaching new environments by traveling with the wind, represent unquantified and difficult‐to‐manage biosecurity threats to human, animal, and plant health in managed and natural ecosystems. Despite the importance of these invasion events, their complexity is reflected by the lack of tools to predict them. Here, we provide the first known evidence showing that the long‐distance aerial dispersal of invasive insects and wildfire smoke, a potential carrier of invasive species, is driven by atmospheric pathways known as Lagrangian coherent structures (LCS). An aerobiological modeling system combining LCS modeling with species biology and atmospheric survival has the potential to transform the understanding and prediction of atmospheric invasions. The proposed modeling system run in forecast or hindcast modes can inform high‐risk invasion events and invasion source locations, making it possible to locate them early, improving the chances of eradication success. [ABSTRACT FROM AUTHOR]

Published

2023

12. Modelling atmospheric dispersal of fungal pathogens on continental scales to safeguard global wheat production

Author

Meyer, Marcel, Gilligan, Christopher, A., Cunniffe, Nik, J., and Burgin, Laura, E.

Subjects

633.1, Mathematical Biology, Long distance dispersal, Wheat rusts, Food security, Atmospheric Transport, Lagrangian Particle Dispersion Modelling, Crop epidemiology, Mathematical Modelling

Abstract

The recent emergence of highly virulent strains of the pathogen causing wheat stem rust has been acknowledged as a threat to global food security. In infected wheat fields, vast amounts of pathogenic fungal spores are produced that can be carried away by wind. For targeted disease surveillance and control it is important to estimate when, where and how many fungal spores are dispersed from infected to susceptible wheat fields. In this study, high-performance computational resources are used to investigate long-distance dispersal revealing atmospheric pathways that connect entire continents. Mechanistic simulations of turbulent atmospheric spore dispersal are conducted. The analyses bring together a variety of data, including international field disease surveys and finely resolved meteorological model data. The UK Met Office's Langrangian stochastic particle dispersion model, NAME, is applied, extended and coupled to other models in a set of case studies. In the first case study, spore dispersal is analysed across Southern/East Africa, the Middle East, and Central/South Asia by simulating billions of stochastic trajectories of fungal spores over dynamically changing host and environmental landscapes. The circumstances under which virulent strains, such as Ug99, pose a risk to globally important wheat producing areas are identified. Simulation results indicate a negligible risk for dispersal from key wheat producing countries on the East African continent (Ethiopia, Kenya) directly to India and Pakistan. However, there is a considerable risk for atmospheric transport from the Arabian Peninsula to South Asia. Spore dispersal trends are quantified between all countries in the domain providing estimates which can be used to improve targeted sampling and control. In the second case study, dispersal from southern Africa to Australia is analysed. Simulation results, as well as data from phenotypic and genotypic analyses, support the hypothesis that extremely long-distance airborne dispersal across the Indian Ocean is possible, albeit rare. This indicates that the pathogen populations on the two continents are connected and underlines the importance of sharing surveillance intelligence between continents. The third case study focusses on Ethiopia, determining likely origins of strain TKTTF that recently caused severe epidemics in East Africa's largest wheat producing country. The analyses suggest inflow into Ethiopia from the Middle East via Yemen, consistent with field survey data. The risk for inflow of pathogens into Ethiopia from key neighbouring countries is ranked for different months of the wheat season. In the last results chapter a pilot study is summarized testing the feasibility of an automated short-term forecasting system for spore dispersal from the latest field disease detection sites. Whilst the functionality and practical relevance of the forecasting system is demonstrated, considerable challenges remain for testing the forecasts. The predictive simulation framework described in this thesis can be applied to any wheat producing area worldwide to assess dispersal risks. The research has broader relevance because long-distance dispersal is a key mechanism for the transmission of several crop and livestock diseases, and also plays an important role in other areas of ecology.

Published

2018

13. Corrigendum: Divergence with gene flow and contrasting population size blur the species boundary in Cycas Sect. Asiorientales, as inferred from morphology and RAD-seq data

Author

Jui-Tse Chang, Chien-Ti Chao, Koh Nakamura, Hsiao-Lei Liu, Min-Xin Luo, and Pei-Chun Liao

Subjects

continental island, Cycas, Kuroshio, long distance dispersal, speciation, species concept, Plant culture, SB1-1110

Published

2023

14. Phylogenetic relationships and biogeography of Psoraleeae (Fabaceae).

Author

Bello, Abubakar, Stirton, Charles H, Chimphango, Samson Bm, and Muasya, A Muthama

Subjects

*BIOGEOGRAPHY, *LEGUMES, *OCEAN currents, *TEMPERATE forests, *CLIMATE change

Abstract

Psoraleeae consist of c. 228 species in ten genera, distributed worldwide but mostly in the temperate biome. Here, we reconstruct the phylogenetic history of Psoraleeae using eight molecular markers (rpl32-trnL , trnQ-rps16 , trnS-trnG , matK , rbcLa , rpoB-trnC , trnL-trnF and ITS) to test the monophyly and previous hypotheses on generic relationships and to reconstruct the biogeographical history (distribution pattern, potential ancestral area and biome). The monophyly of Psoraleeae is supported. The African Otholobium and Psoralea form a strongly supported clade that is sister to the rest of Psoraleeae. However, Otholobium is not monophyletic; the American taxa of the genus are resolved as closer to Bituminaria , whereas Psoralea is a clade derived from within African Otholobium. South African Otholobium is subsumed into Psoralea , the latter having priority, with a synopsis of species level nomenclature provided here. An expanded sampling of Cullen reveals three clades comprising Mediterranean (Cullen americanum), African (Cullen obtusifolium and Cullen biflorum) and Eurasian (Cullen corylifolium and Cullen drupaceum) taxa, whereas Australian Cullen are a derived clade (BS = 95%, PP = 1.00). Biogeographic reconstructions show that Psoraleeae probably originated in the Mediterranean south biome of Africa in the Late Miocene, c. 8.2 Mya, and then dispersed into the succulent biome of the Americas, Mediterranean north biome, temperate grasslands of Africa and Australia to the temperate forest of Eurasia. Climate changes in the Late Miocene, changes induced by ocean currents during the Quaternary and environmental heterogeneity are proposed as the major drivers of speciation in Psoraleeae. [ABSTRACT FROM AUTHOR]

Published

2022

15. Comparing the efficacy of control strategies for infectious disease outbreaks using field and simulation studies.

Author

Chaulagain, Bhim, Contina, Jean Bertrand, Mills, Karasi, Seibel, Rachel L., and Mundt, Christopher C.

Subjects

DISEASE outbreaks, COMMUNICABLE diseases, FIELD research, STRIPE rust, DISEASE management, RUST diseases, EPIDEMICS

Abstract

Diseases characterized by long distance inoculum dispersal (LDD) are among the fastest spreading epidemics in both natural and managed landscapes. Management of such epidemics is extremely challenging because of asymptomatic infection extending at large spatial scales and frequent escape from the newly established disease sources. We compared the efficacy of area‐ and timing‐based disease management strategies in artificially initiated field epidemics of wheat stripe rust and complemented with simulations from an updated version of the spatially explicit model EPIMUL, using model parameters relevant to field epidemics. The model was further used to expand the number of epidemic mitigations beyond that feasible to incorporate in the field. The field experiment was conducted for 2 years in two locations having different climatic conditions. Culling and protection treatments were applied at different times after epidemic initiation and to different spatial extents surrounding the outbreaks. In each experiment, treatments were replicated four times in plots 33.5 m long and 1.52 m wide with a 0.76 × 0.76 m inoculated focus centered within each plot. Disease gradients were assessed along the center lines of the plots at 1.52 m intervals both upwind and downwind from the focus. Both field and simulation results indicated that control measures applied over the entire population were highly effective in suppressing the epidemics by more than 99% but may not always be logistically and economically feasible at large spatial scales. Comparison between the variable sized treatment areas and application timings suggested that implementing contiguous premises (CP) cull at 1 day after first sporulation in the outbreak focus reduced rust by 52% and 60% in Corvallis and Madras, respectively. However, altering the cull size did not significantly affect the disease epidemic development, which suggested that early timing had a greater influence in suppressing the epidemics than did increased area of application. However, sufficiently large, treated areas may compensate for a delay in application timing to some extent. Results from these replicated treatments may help to devise appropriate management strategies for other LDD pathogens. [ABSTRACT FROM AUTHOR]

Published

2022

16. An integrated ecological, genetic and geological assessment of long-distance dispersal by invertebrates on kelp rafts

Author

Waters, Jonathan M., King, Tania M., Fraser, Ceridwen I., and Craw, Dave

Subjects

Long distance dispersal, biogeography, connectivity, genetics, marine, phylogeography, rafting, storms

Abstract

Long-distance dispersal (LDD) is thought to be a key driver of biogeographic processes, yet few direct natural observations have been made of this process. Several studies have characterised diverse benthic epibiotic communities associated with buoyant macroalgae and have proposed that kelp rafting may be an important LDD mechanism for such coastal species. We test for LDD by combining biological, genetic, and geological data from rafted bull-kelp (Durvillaea antarctica) specimens collected in southern New Zealand following a March 2018 storm. Genetic and ecological data strongly indicate that three of 29 detached kelp specimens sequenced (and their associated live epifaunal taxa) had rafted from the sub-Antarctic to mainland New Zealand, traversing both oceanographic and phylogeographic barriers, over the course of an approximately 4-week journey. Numerous additional epifaunal taxa were detected from rafts that had geologically-distant mainland origins. The successful trans-oceanic rafting documented for sub-Antarctic brooding sea-star, chiton and sea-slug taxa presents a mechanism for their broad but phylogeographically disjunct Southern Hemisphere distributions. Moreover, the detection of several such LDD events over the last decade suggests that such journeys are very common over evolutionary timeframes. Although geological and genetic data were informative over different scales, we detected no conflict between the inferences from these distinct data sets, a finding that reinforces the value of integrative approaches to marine biogeography.

Published

2018

17. Heterocarpochory: Hitching a ride on fruit.

Subjects

*DISPERSAL (Ecology), *PLANT dispersal, *FRUIT, *LIFE history theory, *ANIMAL dispersal, *SEED dispersal

Abstract

These simplified seed dispersal syndromes can be a valuable heuristic for generalizing and predicting diaspore movement, but seed dispersal is often more complex. I detected a presumably undescribed seed dispersal strategy during an experiment exploring seed dispersal in a diffuse mutualism. Keywords: anemochory; coevolution; diffuse mutualism; dispersal kernel; dispersal syndromes; dispersal vectors; epizoochory; long distance dispersal; nonstandard dispersal; polychory; seed dispersal; zoochory EN anemochory coevolution diffuse mutualism dispersal kernel dispersal syndromes dispersal vectors epizoochory long distance dispersal nonstandard dispersal polychory seed dispersal zoochory 1 4 4 06/06/22 20220601 NES 220601 Ecologists often use morphological characteristics to infer mechanisms of seed dispersal. Anemochory, long distance dispersal, polychory, seed dispersal, coevolution, diffuse mutualism, dispersal kernel, dispersal syndromes, dispersal vectors, epizoochory, nonstandard dispersal, zoochory. [Extracted from the article]

Published

2022

18. Oak Decline Syndrome in Korean Forests: History, Biology, and Prospects for Korean Oak Wilt.

Author

Choi, Won Il, Lee, Dong-Hyeon, Jung, Jong Bin, and Park, Young-Seuk

Subjects

KOREAN history, AMBROSIA beetles, TREE age, PHENOLS, PATHOGENIC fungi, OAK

Abstract

Oak decline syndrome has been observed in South Korea and Japan and variously referred to as Korean oak wilt (KOW) and Japanese oak wilt (JOW). We reviewed aspects of the historical occurrence of KOW, disease cycle, and its potential causes. KOW has been seen principally in Mongolian oak (Quercus mongolica Fisch. ex Ledeb.). The first occurrence of KOW was in 2004 in Seongnam, South Korea. KOW is associated with the fungus Raffaelea quercus-mongolicae, which is vectored by the ambrosia beetle Platypus koryoensis. In addition, it has been suggested that yeasts have evolved a symbiotic relationship with the vector without antagonism for the pathogenic fungus. The number of trees in Korea killed by KOW increased to about 331,000 in 2011, but then decreased to about 157,000 in 2019. We hypothesized that trees infected by R. quercus-mongolicae accumulate phenolic compounds in the sapwood and the vector (P. koryoensis) beetles then avoid these trees. Therefore, the number of hosts available for the beetle after a KOW outbreak decrease due to accumulation of phenolic compounds in the wood, although most oak trees survive outbreaks. Therefore, P. koryoensis beetles move longer distances after outbreaks to find susceptible host trees. Novel occurrence of KOW in Korea may be due to either (1) an increase in tree age (size) in Korean oak stands, for which the beetle has a known preference or (2) climate change, which may be increasing the number of weakened or stressed trees, for which P. koryoensis also shows a preference. [ABSTRACT FROM AUTHOR]

Published

2022

19. Divergence With Gene Flow and Contrasting Population Size Blur the Species Boundary in Cycas Sect. Asiorientales , as Inferred From Morphology and RAD-Seq Data.

Author

Chang, Jui-Tse, Chao, Chien-Ti, Nakamura, Koh, Liu, Hsiao-Lei, Luo, Min-Xin, and Liao, Pei-Chun

Subjects

SINGLE nucleotide polymorphisms, VICARIANCE, SPECIES, GENETIC markers, POLLEN dispersal

Abstract

The divergence process of incipient species is fascinating but elusive by incomplete lineage sorting or gene flow. Species delimitation is also challenging among those morphologically similar allopatric species, especially when lacking comprehensive data. Cycas sect. Asiorientales , comprised of C. taitungensis and C. revoluta in the Ryukyu Archipelago and Taiwan, diverged recently with continuous gene flow, resulting in a reciprocal paraphyletic relationship. Their previous evolutionary inferences are questioned from few genetic markers, incomplete sampling, and incomprehensive morphological comparison by a long-term taxonomic misconception. By whole range sampling, this study tests the geographic mode of speciation in the two species of Asiorientales by approximate Bayesian computation (ABC) using genome-wide single nucleotide polymorphisms (SNPs). The individual tree was reconstructed to delimit the species and track the gene-flow trajectory. With the comparison of diagnostic morphological traits and genetic data, the allopatric speciation was rejected. Alternatively, continuous but spatially heterogeneous gene flow driven by transoceanic vegetative dispersal and pollen flow with contrasting population sizes blurred their species boundary. On the basis of morphological, genetic, and evolutionary evidence, we synonymized these two Cycas species. This study highlights not only the importance of the Kuroshio Current to species evolution but also the disadvantage of using species with geographically structured genealogies as conservation units. [ABSTRACT FROM AUTHOR]

Published

2022

20. Molecular Phylogeny Reveals the Past Transoceanic Voyages of Drywood Termites (Isoptera, Kalotermitidae).

Author

Buček, Aleš, Wang, Menglin, Šobotník, Jan, Hellemans, Simon, Sillam-Dussès, David, Mizumoto, Nobuaki, Stiblík, Petr, Clitheroe, Crystal, Lu, Tomer, Plaza, Juan José González, Mohagan, Alma, Rafanomezantsoa, Jean-Jacques, Fisher, Brian, Engel, Michael S., Roisin, Yves, Evans, Theodore A., Scheffrahn, Rudolf, and Bourguignon, Thomas

Subjects

GONDWANA (Continent), MOLECULAR phylogeny, INSECT societies, WOOD, MOLECULAR clock, SPECIES

Abstract

Termites are major decomposers in terrestrial ecosystems and the second most diverse lineage of social insects. The Kalotermitidae form the second-largest termite family and are distributed across tropical and subtropical ecosystems, where they typically live in small colonies confined to single wood items inhabited by individuals with no foraging abilities. How the Kalotermitidae have acquired their global distribution patterns remains unresolved. Similarly, it is unclear whether foraging is ancestral to Kalotermitidae or was secondarily acquired in a few species. These questions can be addressed in a phylogenetic framework. We inferred time-calibrated phylogenetic trees of Kalotermitidae using mitochondrial genomes of ∼120 species, about 27% of kalotermitid diversity, including representatives of 21 of the 23 kalotermitid genera. Our mitochondrial genome phylogenetic trees were corroborated by phylogenies inferred from nuclear ultraconserved elements derived from a subset of 28 species. We found that extant kalotermitids shared a common ancestor 84 Ma (75–93 Ma 95% highest posterior density), indicating that a few disjunctions among early-diverging kalotermitid lineages may predate Gondwana breakup. However, most of the ∼40 disjunctions among biogeographic realms were dated at <50 Ma, indicating that transoceanic dispersals, and more recently human-mediated dispersals, have been the major drivers of the global distribution of Kalotermitidae. Our phylogeny also revealed that the capacity to forage is often found in early-diverging kalotermitid lineages, implying the ancestors of Kalotermitidae were able to forage among multiple wood pieces. Our phylogenetic estimates provide a platform for critical taxonomic revision and future comparative analyses of Kalotermitidae. [ABSTRACT FROM AUTHOR]

Published

2022

21. Divergence With Gene Flow and Contrasting Population Size Blur the Species Boundary in Cycas Sect. Asiorientales, as Inferred From Morphology and RAD-Seq Data

Author

Jui-Tse Chang, Chien-Ti Chao, Koh Nakamura, Hsiao-Lei Liu, Min-Xin Luo, and Pei-Chun Liao

Subjects

continental island, Cycas, Kuroshio, long distance dispersal, speciation, species concept, Plant culture, SB1-1110

Abstract

The divergence process of incipient species is fascinating but elusive by incomplete lineage sorting or gene flow. Species delimitation is also challenging among those morphologically similar allopatric species, especially when lacking comprehensive data. Cycas sect. Asiorientales, comprised of C. taitungensis and C. revoluta in the Ryukyu Archipelago and Taiwan, diverged recently with continuous gene flow, resulting in a reciprocal paraphyletic relationship. Their previous evolutionary inferences are questioned from few genetic markers, incomplete sampling, and incomprehensive morphological comparison by a long-term taxonomic misconception. By whole range sampling, this study tests the geographic mode of speciation in the two species of Asiorientales by approximate Bayesian computation (ABC) using genome-wide single nucleotide polymorphisms (SNPs). The individual tree was reconstructed to delimit the species and track the gene-flow trajectory. With the comparison of diagnostic morphological traits and genetic data, the allopatric speciation was rejected. Alternatively, continuous but spatially heterogeneous gene flow driven by transoceanic vegetative dispersal and pollen flow with contrasting population sizes blurred their species boundary. On the basis of morphological, genetic, and evolutionary evidence, we synonymized these two Cycas species. This study highlights not only the importance of the Kuroshio Current to species evolution but also the disadvantage of using species with geographically structured genealogies as conservation units.

Published

2022

22. Functional Traits Drive Dispersal Interactions Between European Waterfowl and Seeds

Author

Bia A. Almeida, Balázs A. Lukács, Ádám Lovas-Kiss, Chevonne Reynolds, and Andy J. Green

Subjects

seed dispersal, functional trait, endozoochory, long distance dispersal, waterbirds, Anatidae, Plant culture, SB1-1110

Abstract

Endozoochory by waterfowl is important for a broad range of angiosperms, most of which lack a fleshy fruit. This dispersal function contributes to the formation and maintenance of plant communities and may allow range shifts for plant species under global change. However, our current understanding of what seed or plant traits are important for this dispersal mechanism, and how they relate to variation in waterbird traits, is extremely limited. We addressed this question using a unique dataset identifying the plant species whose seeds are ingested by 31 different waterfowl species in Europe. We used RLQ and fourth-corner analyses to explore relationships between (1) bird morphological and foraging strategy traits, and (2) plant traits related to seed morphology, environmental preferences, and growth form. We then used Generalized Additive Models to identify relationships between plant/seed traits and the number of waterfowl species that disperse them. Although many waterfowl feed intentionally on seeds, available seed trait data provided little explanation for patterns compared to plant traits such as Ellenberg indicators of habitat preference and life form. Geese were associated with terrestrial plants, ingesting seeds as they graze on land. Diving ducks were associated with strictly aquatic plants, ingesting seeds as they feed at greater depths. Dabbling ducks ingest seeds from plants with high light and temperature requirements, especially shoreline and ruderal species growing in or around the dynamic and shallow microhabitats favored by these birds. Overall, the number of waterfowl vector species (up to 13 per plant species) increases for plants with greater soil moisture requirements and salinity tolerance, reflecting the inclination of most waterfowl species to feed in coastal wetlands. Our findings underline the importance of waterfowl dispersal for plants that are not strictly aquatic, as well as for plants associated with high salinities. Furthermore, our results reveal a soil moisture gradient that drives seed-bird interactions, in line with differences between waterfowl groups in their microhabitat preferences along the land-water continuum. This study provides an important advance in our understanding of the interactions that define plant dispersal in wetlands and their surroundings, and of what plants might be affected by ongoing changes in the distributions of waterfowl species.

Published

2022

23. Functional Traits Drive Dispersal Interactions Between European Waterfowl and Seeds.

Author

Almeida, Bia A., Lukács, Balázs A., Lovas-Kiss, Ádám, Reynolds, Chevonne, and Green, Andy J.

Subjects

WATERFOWL, WATER birds, AQUATIC plants, PLANT dispersal, WETLAND soils, COASTAL wetlands, NUMBERS of species

Abstract

Endozoochory by waterfowl is important for a broad range of angiosperms, most of which lack a fleshy fruit. This dispersal function contributes to the formation and maintenance of plant communities and may allow range shifts for plant species under global change. However, our current understanding of what seed or plant traits are important for this dispersal mechanism, and how they relate to variation in waterbird traits, is extremely limited. We addressed this question using a unique dataset identifying the plant species whose seeds are ingested by 31 different waterfowl species in Europe. We used RLQ and fourth-corner analyses to explore relationships between (1) bird morphological and foraging strategy traits, and (2) plant traits related to seed morphology, environmental preferences, and growth form. We then used Generalized Additive Models to identify relationships between plant/seed traits and the number of waterfowl species that disperse them. Although many waterfowl feed intentionally on seeds, available seed trait data provided little explanation for patterns compared to plant traits such as Ellenberg indicators of habitat preference and life form. Geese were associated with terrestrial plants, ingesting seeds as they graze on land. Diving ducks were associated with strictly aquatic plants, ingesting seeds as they feed at greater depths. Dabbling ducks ingest seeds from plants with high light and temperature requirements, especially shoreline and ruderal species growing in or around the dynamic and shallow microhabitats favored by these birds. Overall, the number of waterfowl vector species (up to 13 per plant species) increases for plants with greater soil moisture requirements and salinity tolerance, reflecting the inclination of most waterfowl species to feed in coastal wetlands. Our findings underline the importance of waterfowl dispersal for plants that are not strictly aquatic, as well as for plants associated with high salinities. Furthermore, our results reveal a soil moisture gradient that drives seed-bird interactions, in line with differences between waterfowl groups in their microhabitat preferences along the land-water continuum. This study provides an important advance in our understanding of the interactions that define plant dispersal in wetlands and their surroundings, and of what plants might be affected by ongoing changes in the distributions of waterfowl species. [ABSTRACT FROM AUTHOR]

Published

2022

24. The Atlantic connection: coastal habitat favoured long distance dispersal and colonization of Azores and Madeira by Dysdera spiders (Araneae: Dysderidae).

Author

Crespo, Luís C., Silva, Isamberto, Enguídanos, Alba, Cardoso, Pedro, and Arnedo, Miquel A.

Subjects

*COLONIZATION (Ecology), *TIME perception, *SPIDERS, *FEMALE reproductive organs, *ENDEMIC animals, *ARCHIPELAGOES, *JUMPING spiders, *SALT marshes, *HABITATS

Abstract

The woodlouse hunter Dysdera spiders have colonized all Macaronesian archipelagos. We report here for the first time an evolutionary connection between the Iberian Peninsula, Madeira, and the remote archipelago of Azores. Based on museum specimens from the 1950s, we describe the first endemic Dysdera species from the Azores. Additionally, we report the recent collection of immature individuals related yet probably not conspecific to the new species, rejecting previous suggestions that the endemic lineage had gone extinct. A multi-locus target phylogeny revealed that an undescribed species from Madeira was the closest relative to the Azores lineage, and that both island taxa were in turn sister to an Iberian endemic species, within a mostly Iberian clade. Interestingly, the Madeiran relative was not closely related to the remaining endemic species reported in the archipelago, suggesting an independent colonization. A divergence time estimation analysis unravelled that Dysdera colonized both archipelagos early after their emergence. The colonization pathway remains ambiguous, but the Iberian Peninsula acted as the ultimate source of the ancestral colonizers. Finally, we describe the new species Dysdera cetophonorum Crespo & Arnedo sp. nov. from Pico and Dysdera citauca Crespo & Arnedo, sp. nov. from Ilhéu de Cima (Porto Santo) and redescribe and illustrate the female genitalia for the first time of their poorly known closest relative, Dysdera flavitarsis Simon, 1882 from the north-western Iberian Peninsula. [ABSTRACT FROM AUTHOR]

Published

2021

25. Hopping or Jumping on the Cliffs: The Unusual Phylogeographical and Demographic Structure of an Extremely Narrow Endemic Mediterranean Plant.

Author

Strumia, Sandro, Santangelo, Annalisa, Galise, Teresa Rosa, Cozzolino, Salvatore, and Cafasso, Donata

Subjects

ENDEMIC plants, REPRODUCTIVE isolation, COLONIZATION (Ecology), CURRENT distribution, GENE flow, CHLOROPLAST DNA, INTROGRESSION (Genetics)

Abstract

Several past and recent climatic and geological events have greatly influenced the current distribution of coastal species around the Mediterranean Basin. As a consequence, the reconstruction of the distributional history of these species is challenging. In this study, we used both chloroplast and nuclear SNPs to assess the levels of genetic differentiation, contemporary/historical levels of gene flow, and demographic history for the three only known (one mainland and two insular) populations of Eokochia saxicola , a rare Mediterranean coastal rocky halophyte. Plastid genome analysis revealed very low intraspecific haplotype variation and partial admixture among Capri and Palinuro populations with at least two independent colonization events for the Strombolicchio islet. Nuclear SNPs variation consistently identified three distinct genetic clusters corresponding to our sampling localities. Furthermore, strong genetic isolation was confirmed by both historical and contemporary levels of migration among the three populations. The DIYABC analysis identified two introductions temporally separated from Palinuro to Capri (ca.25 Mya) and subsequently to Strombolicchio (ca.09 Mya) as the most likely hypothesis for the current distribution of E. saxicola. Regardless of their small population sizes, all study sites supported high-genetic diversity maintained by outcrossing and random mating between individuals owing largely to wind pollination, an exclusive trait among Mediterranean narrow endemics. In conclusion, the patterns observed confirm that some Mediterranean endemics are not necessarily "evolutionary dead-ends" but rather represent species that have extensive demographic stability and a strong evolutionary legacy. [ABSTRACT FROM AUTHOR]

Published

2021

26. Hopping or Jumping on the Cliffs: The Unusual Phylogeographical and Demographic Structure of an Extremely Narrow Endemic Mediterranean Plant

Author

Sandro Strumia, Annalisa Santangelo, Teresa Rosa Galise, Salvatore Cozzolino, and Donata Cafasso

Subjects

contemporary and historical gene flow, ddRAD, DIYABC, halophytes, IUCN, long distance dispersal, Plant culture, SB1-1110

Abstract

Several past and recent climatic and geological events have greatly influenced the current distribution of coastal species around the Mediterranean Basin. As a consequence, the reconstruction of the distributional history of these species is challenging. In this study, we used both chloroplast and nuclear SNPs to assess the levels of genetic differentiation, contemporary/historical levels of gene flow, and demographic history for the three only known (one mainland and two insular) populations of Eokochia saxicola, a rare Mediterranean coastal rocky halophyte. Plastid genome analysis revealed very low intraspecific haplotype variation and partial admixture among Capri and Palinuro populations with at least two independent colonization events for the Strombolicchio islet. Nuclear SNPs variation consistently identified three distinct genetic clusters corresponding to our sampling localities. Furthermore, strong genetic isolation was confirmed by both historical and contemporary levels of migration among the three populations. The DIYABC analysis identified two introductions temporally separated from Palinuro to Capri (ca.25 Mya) and subsequently to Strombolicchio (ca.09 Mya) as the most likely hypothesis for the current distribution of E. saxicola. Regardless of their small population sizes, all study sites supported high-genetic diversity maintained by outcrossing and random mating between individuals owing largely to wind pollination, an exclusive trait among Mediterranean narrow endemics. In conclusion, the patterns observed confirm that some Mediterranean endemics are not necessarily “evolutionary dead-ends” but rather represent species that have extensive demographic stability and a strong evolutionary legacy.

Published

2021

27. Macaronesia as a Fruitful Arena for Ecology, Evolution, and Conservation Biology

Author

Margarita Florencio, Jairo Patiño, Sandra Nogué, Anna Traveset, Paulo A. V. Borges, Hanno Schaefer, Isabel R. Amorim, Miquel Arnedo, Sérgio P. Ávila, Pedro Cardoso, Lea de Nascimento, José María Fernández-Palacios, Sofia I. Gabriel, Artur Gil, Vítor Gonçalves, Ricardo Haroun, Juan Carlos Illera, Marta López-Darias, Alejandro Martínez, Gustavo M. Martins, Ana I. Neto, Manuel Nogales, Pedro Oromí, Juan Carlos Rando, Pedro M. Raposeiro, François Rigal, Maria M. Romeiras, Luís Silva, Alfredo Valido, Alain Vanderpoorten, Raquel Vasconcelos, and Ana M. C. Santos

Subjects

alien species, biodiversity hotspot, biotic interactions, extinction, long distance dispersal, reverse colonisation, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Research in Macaronesia has led to substantial advances in ecology, evolution and conservation biology. We review the scientific developments achieved in this region, and outline promising research avenues enhancing conservation. Some of these discoveries indicate that the Macaronesian flora and fauna are composed of rather young lineages, not Tertiary relicts, predominantly of European origin. Macaronesia also seems to be an important source region for back-colonisation of continental fringe regions on both sides of the Atlantic. This group of archipelagos (Azores, Madeira, Selvagens, Canary Islands, and Cabo Verde) has been crucial to learn about the particularities of macroecological patterns and interaction networks on islands, providing evidence for the development of the General Dynamic Model of oceanic island biogeography and subsequent updates. However, in addition to exceptionally high richness of endemic species, Macaronesia is also home to a growing number of threatened species, along with invasive alien plants and animals. Several innovative conservation and management actions are in place to protect its biodiversity from these and other drivers of global change. The Macaronesian Islands are a well-suited field of study for island ecology and evolution research, mostly due to its special geological layout with 40 islands grouped within five archipelagos differing in geological age, climate and isolation. A large amount of data is now available for several groups of organisms on and around many of these islands. However, continued efforts should be made toward compiling new information on their biodiversity, to pursue various fruitful research avenues and develop appropriate conservation management tools.

Published

2021

28. The presence of a cryptic barrier in the West Pacific Ocean suggests the effect of glacial climate changes on a widespread sea‐dispersed plant, Vigna marina (Fabaceae)

Author

Takashi Yamamoto, Yoshiaki Tsuda, Koji Takayama, Reiko Nagashima, Yoichi Tateishi, and Tadashi Kajita

Subjects

approximate Bayesian computation, demographic history, long distance dispersal, pantropical plants with sea‐drifted seeds, phylogeography, refugia, Ecology, QH540-549.5

Abstract

Abstract Ocean currents are an important driver of evolution for sea‐dispersed plants, enabling them to maintain reciprocal gene flow via sea‐dispersed diaspores and obtain wide distribution ranges. Although geographic barriers are known to be the primary factors shaping present genetic structure of sea‐dispersed plants, cryptic barriers which form clear genetic structure within oceanic regions are poorly understood. To test the presence of a cryptic barrier, we conducted a phylogeographic study together with past demographic inference for a widespread sea‐dispersed plant, Vigna marina, using 308 individuals collected from the entire Indo‐West Pacific (IWP) region. Chloroplast DNA variation showed strong genetic structure that separated populations into three groups: North Pacific (NP), South Pacific (SP) and Indian Ocean (IN) (F′CT among groups = 0.954–1.000). According to the Approximate Bayesian computation inference, splitting time between NP and SP was approximately 20,200 years (95%HPD, 4,530–95,400) before present. Moreover, a signal of recent population expansion was detected in the NP group. This study clearly showed the presence of a cryptic barrier in the West Pacific region of the distributional range of V. marina. The locations of the cryptic barrier observed in V. marina corresponded to the genetic breaks found in other plants, suggesting the presence of a common cryptic barrier for sea‐dispersed plants. Demographic inference suggested that genetic structure related to this cryptic barrier has been present since the last glacial maximum and may reflect patterns of past population expansion from refugia.

Published

2019

29. A simple mechanistic model of the invasive species Heracleum sosnowskyi propagule dispersal by wind

Author

Ivan Chadin, Igor Dalke, Denis Tishin, Ilya Zakhozhiy, and Ruslan Malyshev

Subjects

Heracleum sosnowskyi, Plant invasion, Seeds dispersal, Mechanistic model, Anemochory, Long distance dispersal, Medicine, Biology (General), QH301-705.5

Abstract

Background Invasive species are one of the key elements of human-mediated ecosystem degradation and ecosystem services impairment worldwide. Dispersal of propagules is the first stage of plant species spread and strongly influences the dynamics of biological invasion. Therefore, distance prediction for invasive species spread is critical for invasion management. Heracleum sosnowskyi is one of the most dangerous invasive species with wind-dispersed propagules (seeds) across Eastern Europe. This study developed a simple mechanistic model for H. sosnowskyi propagule dispersal and their distances with an accuracy comparable to that of empirical measurements. Methods We measured and compared the propagule traits (terminal velocity, mass, area, and wing loading) and release height for H. sosnowskyi populations from two geographically distant regions of European Russia. We tested two simple mechanistic models: a ballistic model and a wind gradient model using identical artificial propagules. The artificial propagules were made of colored paper with a mass, area, wing loading, and terminal velocity close to those of natural H. sosnowskyi mericarps. Results The wind gradient model produced the best results. The first calculations of maximum possible propagule transfer distance by wind using the model and data from weather stations showed that the role of wind as a vector of long-distance dispersal for invasive Heracleum species was strongly underestimated. The published dataset with H. sosnowskyi propagule traits and release heights allows for modeling of the propagules’ dispersal distances by wind at any geographical point within their entire invasion range using data from the closest weather stations. The proposed simple model for the prediction of H. sosnowskyi propagule dispersal by wind may be included in planning processes for managing invasion of this species.

Published

2021

30. A simple mechanistic model of the invasive species Heracleum sosnowskyi propagule dispersal by wind.

Author

Chadin, Ivan, Dalke, Igor, Tishin, Denis, Zakhozhiy, Ilya, and Malyshev, Ruslan

Subjects

INTRODUCED species, TERMINAL velocity, BIOLOGICAL invasions, METEOROLOGICAL stations, PLANT species

Abstract

Background. Invasive species are one of the key elements of human-mediated ecosystem degradation and ecosystem services impairment worldwide. Dispersal of propagules is the first stage of plant species spread and strongly influences the dynamics of biological invasion. Therefore, distance prediction for invasive species spread is critical for invasion management. Heracleum sosnowskyi is one of the most dangerous invasive species with wind-dispersed propagules (seeds) across Eastern Europe. This study developed a simple mechanistic model for H. sosnowskyi propagule dispersal and their distances with an accuracy comparable to that of empirical measurements. Methods. We measured and compared the propagule traits (terminal velocity, mass, area, and wing loading) and release height for H. sosnowskyi populations from two geographically distant regions of European Russia. We tested two simple mechanistic models: a ballistic model and a wind gradient model using identical artificial propagules. The artificial propagules were made of colored paper with a mass, area, wing loading, and terminal velocity close to those of natural H. sosnowskyi mericarps. Results. The wind gradient model produced the best results. The first calculations of maximum possible propagule transfer distance by wind using the model and data from weather stations showed that the role of wind as a vector of long-distance dispersal for invasive Heracleum species was strongly underestimated. The published dataset with H. sosnowskyi propagule traits and release heights allows for modeling of the propagules’ dispersal distances by wind at any geographical point within their entire invasion range using data from the closest weather stations. The proposed simple model for the prediction of H. sosnowskyi propagule dispersal by wind may be included in planning processes for managing invasion of this species. [ABSTRACT FROM AUTHOR]

Published

2021

31. New Records of Liparis kumokiri Group (Orchidaceae) in Eurasia Suggest Its Recent Dispersal from East Asia.

Author

Efimov, P., Machs, E., Liksakova, N., and Chetverikov, P.

Abstract

The article describes a new case of long-distance dispersal in vascular plants. The reported plant belongs to a group of closely related taxa from East Asia, here referred to as 'kumokiri-alliance'. Our phylogenetic data show that this alliance is poorly resolved into separate species and according to available data the discussed taxon cannot be referred to any particular species. Presumably the same plant was earlier discovered in Italy (in 2012) and in Austria (in 2016) and reported under the name L. kumokiri, but most of the authors treated it as a native element in those countries. In this article, we report further records of this plant in Krasnoyarsk krai, in the Republic of Dagestan and presumably also in Kamchatka krai of Russia. The ITS sequence data of plants from Krasnoyarsk krai and from Republic of Dagestan show that it is very closely related (if not identical) to the plants from Italy, suggesting that the plant has already developed a large secondary range, probably the largest among orchids in Eurasia, but it might have been overlooked due to its inconspicuous habitus. [ABSTRACT FROM AUTHOR]

Published

2021

32. Phylogeny and biogeography of the hollies (Ilex L., Aquifoliaceae).

Author

Yao, Xin, Song, Yu, Yang, Jun‐Bo, Tan, Yun‐Hong, and Corlett, Richard T.

Subjects

*PHYLOGENY, *BIOGEOGRAPHY, *GLOBAL cooling, *POLLEN

Abstract

The holly genus, Ilex L., in the monogeneric Aquifoliaceae, is the largest woody dioecious genus (>664 spp.), with a near‐cosmopolitan distribution in mesic environments. We constructed a phylogeny based on two nuclear genes, representing 177 species spread across the geographical range, and dated using macrofossil records. The five main clades had a common ancestor in the early Eocene, much earlier than previously suggested. Ilex originated in subtropical Asia and extant clades colonized South America by 30 Ma, North America by 23 Ma, Australia by 8 Ma, Europe by 6 Ma, and Africa by 4 Ma. South and North America were colonized multiple times. Ilex also reached Hawaii (10 Ma) and other oceanic islands. Macrofossil and pollen records show the genus has tracked mesic climates through time and space, and had a wider distribution before late Miocene global cooling. Our phylogeny provides a framework for studies in comparative ecology and evolution. [ABSTRACT FROM AUTHOR]

Published

2021

33. Human-mediated dispersal of the seeds of Australian weeds.

Author

Pickering, Catherine and Ansong, Michael

Subjects

SEED dispersal, WEED seeds, INTRODUCED plants, BIOLOGICAL invasions, DISPERSAL (Ecology)

Abstract

Human-mediated seed dispersal facilitates biological invasions, including the spread of noxious and/or naturalised alien plants in Australia--but which species are dispersed by such mechanisms and what traits do they share? Data were extracted from two reviews of seed dispersed from clothing/personal equipment (e.g. backpacks) and vehicles to assess the range and types of Australian weeds benefiting from these dispersal mechanisms. Across 33 studies, including 11 from Australia, 466 species of weeds in Australia were recorded, 375 from vehicles and 212 from clothing. Many noxious species (17%) and ten Weeds of National Significance were included. Species were predominantly forbs or graminoids with few shrubs or trees. Seeds from annuals were more frequent than expected on vehicles but perennials were more frequent on clothing. New studies will add species to this corpus, but the results already highlight the importance of strategies to minimise risks from such dispersal mechanisms to help reduce the homogenisation of floras, including those in Australia. [ABSTRACT FROM AUTHOR]

Published

2020

34. The genus Camelobaetidius Demoulin (Ephemeroptera: Baetidae) in America: Phylogenic and biogeographic analyses.

Author

Nieto, Carolina, Boldrini, Rafael, Gonzalez, Juan Cruz, Pes, Ana Maria, and Salles, Frederico Falcão

Subjects

MAYFLIES, VICARIANCE, CLAWS, SYNONYMS, MOLECULAR phylogeny

Abstract

The genus Camelobaetidius is the second most diverse genus of the family Baetidae in America. Also, two other genera were described as closely related to Camelobaetidius : Corinnella , and Tapajobaetis. A peculiar spatulate tarsal claw is the character shared among them. We used TNT (Tree analysis using New Technology) and GEM (Geographically explicit Event Model) to recover the phylogenic and biogeographic history of these genera. A matrix of 42 taxa and 77 morphological characters was constructed, of which 68 were treated as discrete and nonadditive (unordered), and eight as continuous. All available records of Camelobaetidius plus Corinnella , Tapajobaetis , and the species's outgroup were included in the biogeographic analysis. Corinnella and Tapajobaetis were obtained into Camelobaetidius and, therefore, are here considered junior synonyms. The founder events were the most frequent in this genus, followed by vicariance, sympatry and point sympatry. The long-distance dispersal ability in mayfly seems to be the rule instead of the exception in the history of this clade. [ABSTRACT FROM AUTHOR]

Published

2020

35. Flight Duration Capabilities of Dispersing Adult Spotted Lanternflies, Lycorma delicatula.

Author

Wolfin, Michael S., Myrick, Andrew J., and Baker, Thomas C.

Subjects

*DISTANCES, *ADULTS

Abstract

Adult spotted lanternflies, Lycorma delicatula, launch themselves into the wind from elevated locations such as trees, lamp posts, and buildings. Individuals fly in short, successive bouts along descending trajectories of between 10 and 50 m before landing, crawling upward on a new structure, and again launching upwind. The possible physiological limits to the durations of flight-bouts, if not constrained by their poor ability to generate lift, however, remain unknown. In this study, we observed the behavior of tethered spotted lanternflies known to be prone to flight-dispersing, and recorded the number and durations of their successive flight bouts. Additionally, we recorded the flight distances and durations of similar spotted lanternflies in the field that had spontaneously taken flight or had been manually launched. We found that tethered females can perform >20 successive bouts with only 1 min between bouts when flight durations were limited to 20 s/bout. Bouts averaged 97.9 ± 11.4 s when bout durations were unlimited, with some females flying bouts lasting >400 s. Females could quickly advance upwind a distance >3000 m if the bouts of ~100 s each were performed in quick succession in the field. However, adults spontaneously taking flight in the field flew for an average of only ~13 s and traveled an average of ~29 m before landing on the ground or on nearby objects. This information is important to determine how far a locally dispersing adult can fly before finding a suitable host to finish feeding and attain reproductive maturity. [ABSTRACT FROM AUTHOR]

Published

2020

36. Conservation translocations: a review of common difficulties and promising directions.

Author

Berger‐Tal, O., Blumstein, D. T., and Swaisgood, R. R.

Subjects

*ANIMAL behavior, *ANIMAL introduction, *PUBLIC support, *WILDLIFE reintroduction, *CASE studies

Abstract

Translocations are a common conservation and management strategy, but despite their popularity, translocations are a high‐cost endeavor with a history of failures. It is therefore imperative to maximize their success by learning from our collective experience. The Global Re‐introduction Perspectives Series is a collection of conservation translocation case studies, generated by the IUCN's Conservation Translocation Specialist Group, and presented in a structured format with an emphasis on practical information. All 293 animal translocation case studies to date include a section in which the authors list the difficulties they have faced during the translocation project, with over 1200 difficulties described so far. We reviewed all difficulties reported in the series to get insights into the common perceived difficulties faced by wildlife managers during animal translocations. The most reported‐upon problems had to do with animal behavior, followed by monitoring difficulties, lack of funding, quality of release habitat, lack of baseline knowledge and lack of public support. We scrutinized each of these difficulties to highlight future research directions that are most likely to improve translocation success, and put a special emphasis on difficulties stemming from animal behavior, and on solutions that may alleviate these problems and improve conservation translocation success world‐wide. [ABSTRACT FROM AUTHOR]

Published

2020

37. IV. A Dated Phylogeny of the Papaya Family (Caricaceae) Reveals the Crop’s Closest Relatives and the Family’s Biogeographic History §

Author

Antunes Carvalho, Fernanda, Renner, Susanne S., and Antunes Carvalho, Fernanda

Published

2015

38. The presence of a cryptic barrier in the West Pacific Ocean suggests the effect of glacial climate changes on a widespread sea‐dispersed plant, Vigna marina (Fabaceae).

Author

Yamamoto, Takashi, Tsuda, Yoshiaki, Takayama, Koji, Nagashima, Reiko, Tateishi, Yoichi, and Kajita, Tadashi

Subjects

ZOSTERA marina, PHYLOGEOGRAPHY, CLIMATE change, GLACIAL climates

Abstract

Ocean currents are an important driver of evolution for sea‐dispersed plants, enabling them to maintain reciprocal gene flow via sea‐dispersed diaspores and obtain wide distribution ranges. Although geographic barriers are known to be the primary factors shaping present genetic structure of sea‐dispersed plants, cryptic barriers which form clear genetic structure within oceanic regions are poorly understood. To test the presence of a cryptic barrier, we conducted a phylogeographic study together with past demographic inference for a widespread sea‐dispersed plant, Vigna marina, using 308 individuals collected from the entire Indo‐West Pacific (IWP) region. Chloroplast DNA variation showed strong genetic structure that separated populations into three groups: North Pacific (NP), South Pacific (SP) and Indian Ocean (IN) (F′CT among groups = 0.954–1.000). According to the Approximate Bayesian computation inference, splitting time between NP and SP was approximately 20,200 years (95%HPD, 4,530–95,400) before present. Moreover, a signal of recent population expansion was detected in the NP group. This study clearly showed the presence of a cryptic barrier in the West Pacific region of the distributional range of V. marina. The locations of the cryptic barrier observed in V. marina corresponded to the genetic breaks found in other plants, suggesting the presence of a common cryptic barrier for sea‐dispersed plants. Demographic inference suggested that genetic structure related to this cryptic barrier has been present since the last glacial maximum and may reflect patterns of past population expansion from refugia. [ABSTRACT FROM AUTHOR]

Published

2019

39. Advances in Calymperaeae (Dicranidae, Bryophyta): Phylogeny, divergence times and pantropical promiscuity.

Author

Pereira, Marta Regina, Câmara, Paulo E. A. S., Amorim, Bruno S., McDaniel, Stuart F., Payton, Adam C., Carey, Sarah B., Sierra, Adriel M., and Zartman, Charles E.

Subjects

*RAIN forests, *BRYOPHYTES, *LEAF morphology, *TROPICAL forests

Abstract

Calymperaceae is a large moss family well represented in lowland tropical rain forests worldwide. To date, both infra- and extra-familial relationships in Calymperaceae remain largely unresolved. Here, we present a multi-locus phylogenetic hypothesis based on one ribosomal, one mitochondrial and four plastid markers from 61 taxa with the aim to: 1) test the monophyly of Calymperes; 2) evaluate the subgeneric classification for Syrrhopodon; 3) estimate divergence times in light of the "shadow of the angiosperms" hypothesis; and 4) examine the global-scale phylogeographic patterns in light of predictions that lowland tropical bryophytes have higher dispersal capacities than extra-tropical taxa. Our analysis, which now includes 15% of the family's Neotropical representatives, corroborates the monophyly of Calymperes, Mitthyridium and the Leucobryoid taxa, and demonstrates that leaf morphology (including leucobryoid characters) are evolutionarily labile traits. The large genus Syrrhopodon continues as polyphyletic, and only subgenera Leucophanella, Heliconema and Pseudocalymperes were recovered as monophyletic. The largest limbate subgenus Hyalolimbatae is polyphyletic with sampled taxa distributed among three separately supported clades. Divergence time analyses suggest a relatively recent (Mid to Late Miocene) radiation accompanying the spread of tropical forests coupled by multiple, independent pantropical exchanges. Although strong phylogeographic signal was recovered, multiple sister groups showed close geographical ties among Amazonian and Asian Pacific taxa suggesting that inter-continental migrations followed by cladogenic events occurred repeatedly starting from 20 mya. Evidence for inter-continental exchanges (i.e., long distance dispersal) in the relatively recent geological past is particularly unexpected for Calymperaceae as the family is dioecious (a rare trait for pantropical bryophytes), and characterized by low sporophyte production. [ABSTRACT FROM AUTHOR]

Published

2019

40. Modeling wind-driven seed dispersal using a coupled Lagrangian particle tracking and 1-D [formula omitted]-[formula omitted] turbulence model.

Author

Wang, Binbin, Sullivan, Lauren L., and Wood, Jeffrey D.

Subjects

*SEED dispersal, *TURBULENCE, *KINETIC energy, *MARKOV processes, *TIME series analysis, *PRAIRIES

Abstract

We present a one-dimensional k - ɛ model and a Markov chain stochastic Lagrangian particle tracking model to study wind-driven dispersal of forest and grassland seeds. The turbulence model within and above the canopy is implemented for transient winds so that time series of profiles of mean velocity, turbulence kinetic energy, dissipation rate, and the root-mean-square of fluctuating velocity components can be modeled. We validate the model for steady state conditions using observations in a wide range of canopies, and apply the model for predicting time series of seed dispersal of Andropogon gerardii in a tall grass prairie in Missouri, United States. The stochastic seed dispersal model is validated against experimental data from a Quercus-Carya (oak-hickory) forest where seeds were released from different heights for a range of wind speeds. Using the model, we explore the detailed seed movement trajectories, instantaneous velocities, and investigate the relationship between dispersal distance and the seed falling duration and the mean fluctuating velocity during the falling. Moreover, examining the role of individual turbulent velocity components, we elucidate the different roles of horizontal and vertical velocity fluctuations, i.e., the horizontal component mainly contributes to the seed spreading in the wind direction, while the vertical component enhances the long tail of the distribution in the downstream direction, i.e., promoting long-distance-dispersal of seeds by wind. • The 1-D k - ɛ model determines mean and turbulence characteristics of wind within and above canopies. • The Lagrangian particle tracking model well predicts the distribution of wind-driven seed dispersal. • Vertical turbulent velocities are responsible for the long tail distribution of seed dispersal. • The transient model efficiently simulates varying dispersal distances with changing wind speeds. [ABSTRACT FROM AUTHOR]

Published

2023

41. The establishment of plants following long-distance dispersal

Author

Zeng-Yuan Wu, Richard I. Milne, Jie Liu, Ran Nathan, Richard T. Corlett, and De-Zhu Li

Subjects

establishment, movement ecology, long distance dispersal, Ecology, Evolution, Behavior and Systematics, biogeography, mechanistic models

Abstract

Long-distance dispersal (LDD) beyond the range of a species is an important driver of ecological and evolutionary patterns, but insufficient attention has been given to postdispersal establishment. In this review, we summarize current knowledge of the post-LDD establishment phase in plant colonization, identify six key determinants of establishment success, develop a general quantitative framework for post-LDD establishment, and address the major challenges and opportunities in future research. These include improving detection and understanding of LDD using novel approaches, investigating mechanisms determining post-LDD establishment success using mechanistic modeling and inference, and comparison of establishment between past and present. By addressing current knowledge gaps, we aim to further our understanding of how LDD affects plant distributions, and the long-term consequences of LDD events.

Published

2023

42. An integrated ecological, genetic and geological assessment of long-distance dispersal by invertebrates on kelp rafts

Author

Jonathan M. Waters, Tania M. King, Ceridwen I. Fraser, and Dave Craw

Subjects

Long distance dispersal, biogeography, connectivity, genetics, marine, phylogeography, rafting, storms, Ecology, QH540-549.5, Microbial ecology, QR100-130

Abstract

Long-distance dispersal (LDD) is thought to be a key driver of biogeographic processes, yet few direct natural observations have been made of this process. Several studies have characterised diverse benthic epibiotic communities associated with buoyant macroalgae and have proposed that kelp rafting may be an important LDD mechanism for such coastal species. We test for LDD by combining biological, genetic, and geological data from rafted bull-kelp (Durvillaea antarctica) specimens collected in southern New Zealand following a March 2018 storm. Genetic and ecological data strongly indicate that three of 29 detached kelp specimens sequenced (and their associated live epifaunal taxa) had rafted from the sub-Antarctic to mainland New Zealand, traversing both oceanographic and phylogeographic barriers, over the course of an approximately 4-week journey. Numerous additional epifaunal taxa were detected from rafts that had geologically-distant mainland origins. The successful trans-oceanic rafting documented for sub-Antarctic brooding sea-star, chiton and sea-slug taxa presents a mechanism for their broad but phylogeographically disjunct Southern Hemisphere distributions. Moreover, the detection of several such LDD events over the last decade suggests that such journeys are very common over evolutionary timeframes. Although geological and genetic data were informative over different scales, we detected no conflict between the inferences from these distinct data sets, a finding that reinforces the value of integrative approaches to marine biogeography.

Published

2018

43. Euphorbia Section Hainanensis (Euphorbiaceae), a New Section Endemic to the Hainan Island of China From Biogeographical, Karyological, and Phenotypical Evidence

Author

Xinmin Tian, Qiuyan Wang, and Yongfeng Zhou

Subjects

phylogeny, biogeography, endangered species, limestone mountains, long distance dispersal, Plant culture, SB1-1110

Abstract

Euphorbia hainanensis is an endangered species endemic to the tropical Hainan Island in southern China and of historical importance for Chinese medicine. It is currently the only unplaced species of the genus Euphorbia (Euphorbiaceae) due to its isolated island distribution and debated placement by a previous molecular phylogenetic study. We sequenced nuclear ITS and chloroplast rbcL and ndhF for newly collected accessions of E. hainanensis and additional Euphorbia species found in Hainan, and analyzed the sequences in the context of the entire genus together with published data. All gene regions highly supported that E. hainanensis occupied an isolated phylogenetic position, showing no close affinity with any known Euphorbia sections suggesting it was a new section. ITS placed E. hainanensis sister to sect. Crossadenia (subgenus Chamaesyce) from Brazil with an estimated divergence time of 9.3-30.6 Mya while the chloroplast markers placed E. hainanensis at a position sister to the entire New World clade of Euphorbia subgenus Chamaesyce. In addition, our karyological results suggested a close affinity between E. hainanensis and the New World species of Euphorbia subg. Chamaesyce, with which shared the same chromosome number 2n = 28 and basic chromosome number x = 7. Phenotypically, E. hainanensis is unique with no close resemblance to other species in Euphorbia subg. Chamaesyce. Based on its isolated biogeographical, karyological, and phenotypical position, we propose a new section E. subgenus Chamaesyce section Hainanensis that might origin from long distance dispersal events because collective evidences showed a close affinity between the species from the Old World with those from the New World.

Published

2018

44. Early Pleistocene Faunal Connections Between Africa and Eurasia: An Ecological Perspective

Author

Belmaker, Miriam, Fleagle, John G., editor, Shea, John J., editor, Grine, Frederick E., editor, Baden, Andrea L., editor, and Leakey, Richard E., editor

Published

2010

45. Contemporary pollen flow as a multiscale process: Evidence from the insect‐pollinated herb, Pulsatilla vulgaris.

Author

DiLeo, Michelle F., Holderegger, Rolf, Wagner, Helene H., and Bartomeus, Ignasi

Subjects

*PULSATILLA, *POLLINATION, *POLLEN, *POLLINATORS, *SELF-pollination, *INSECT pollinators, *POLLINATION by bees

Abstract

Understanding the drivers and spatial scale of gene flow is essential for the management of species living in fragmented landscapes. In plants, contemporary pollen flow is typically modelled as a single spatial process, with pollen flow declining exponentially within a short distance of mother plants. However, growing evidence suggests that many species do not conform to these patterns, often showing an excess of long‐distance dispersal events or sometimes even multimodality in dispersal kernels. This suggests that a single function might be insufficient to capture the true complexity of pollination, which in reality is often achieved by multiple pollinators that vary in their foraging ranges and interactions with the landscape.We reconstructed realized pollen flow and assessed pollen immigration for seven populations of the insect‐pollinated herb Pulsatilla vulgaris. We quantified the effects of distance, floral resources and landscape composition over multiple spatial scales and tested the hypotheses that within‐population pollen flow is related to resources and landscape context measured locally, and that among‐population pollen flow is related to features measured at larger spatial scales.We found that pollen flow within populations was more likely to occur amongst near neighbours, but that among‐population pollen flow was random with respect to source populations. We further found that local floral density could explain patterns of within‐population pollination distances and population‐level selfing rates, whereas pollen immigration rates were best explained by the proportion of forest within a radius of 500 m around focal populations.Synthesis. Together, our results suggest that within‐ and among‐population contemporary pollen flow may be governed by different underlying processes, possibly related to differences in the foraging range and habitat use of bee species that contribute to pollination at different scales. This highlights the critical need for researchers to take a more pollinator‐eyed view of contemporary pollen flow in plants by (1) recognizing that within‐ and among‐population gene flow by pollen may depend on different sets of pollinators that respond to features at different spatial scales (2) considering additional factors that may alter attractiveness, detectability and accessibility of plants to pollinators beyond the effects of distance. Within‐ and among‐population pollen flow in Pulsatilla vulgaris may be governed by different underlying processes, possibly related to differences in the foraging range and habitat use of bees that contribute to pollination at different scales. This highlights the critical need for researchers to take a more pollinator‐eyed view of contemporary pollen flow. [ABSTRACT FROM AUTHOR]

Published

2018

46. Modelling the spread and control of cherry guava on Lord Howe Island.

Author

Baker, Christopher M., Bower, Sue, Tartaglia, Elena, Bode, Michael, Bower, Hank, and Pressey, Robert L.

Subjects

*PSIDIUM cattleianum, *INTRODUCED species, *WORLD Heritage Sites, *DISPERSAL (Ecology), *POPULATION dynamics

Abstract

Abstract Effectively controlling invasive species on islands is a critical aspect of global conservation. Having the potential to outcompete or consume native species, it is particularly important to remove them from islands harbouring unique flora and fauna. Lord Howe Island, a World Heritage listed area to the east of the Australian mainland, is in the midst of a long-term weed management project, where the most prolific invasive species is cherry guava, with over 700,000 plants removed so far. In such projects, it is critical to have a good understanding of the invasion dynamics and removal process to have reliable estimates of project timeline and success, and to ensure the best removal strategies are being utilised. In this paper we model cherry guava growth, spread and removal on Lord Howe Island, fitting our model to 12 years of removal data. Our mean estimate is that there are 102,091 plants remaining on the island, which will take approximately 25 years to remove at current levels of eradication effort. Altering the strategy to search every year, rather than biennially, reduces the eradication time to 20 years, which falls within the project target, while also decreasing the total search effort. However, simply increasing search effort to finish faster actually increases the total eradication effort. This shows that the benefits of making careful adjustments to a strategy can far out-weight the benefit of simply investing more money into control. This project exemplifies how high-quality removal record-keeping can be used to generate models that provide important long-term forecasts of project success and suggest effective strategic improvements. Highlights • Cherry guava is a prolific invasive plant, having the ability to form dense monocultures. • There has been a long-term cherry guava eradication project on Lord Howe Island. • We implement mathematical models to estimate critical population dynamic parameters. • The current eradication strategy is forecast to take another 25 years to complete. • Altering search frequency to be yearly can reduce the eradication time to 20 years. [ABSTRACT FROM AUTHOR]

Published

2018

47. The odd one out or a hidden generalist: Hawaiian Melicope (Rutaceae) do not share traits associated with successful island colonization.

Author

Paetzold, Claudia, Kiehn, Michael, Wood, Kenneth R., Wagner, Warren L., and Appelhans, Marc S.

Subjects

*MELICOPE, *RUTACEAE, *PLANT species, *BIODIVERSITY

Abstract

Oceanic islands are unique in their species composition, which is defined by arrival of colonizers via long distance dispersal followed by establishment of species followed in some cases by adaptive radiation. Evolutionary biologists identified traits facilitating successful colonization of islands as including polyploidy, self‐compatibility, herbaceousness and ability for long‐distance dispersal. Successful establishment and evolutionary diversification of lineages on islands often involves shifts to woodiness and shifts in methods of outcrossing as well as changes in dispersal ability. The genus Melicope colonized numerous archipelagos throughout the Pacific including the Hawaiian Islands, where the lineage comprises currently 54 endemic species and represents the largest radiation of woody plants on the islands. The wide distributional range of the genus illustrates its high dispersibility, most likely due to adaption to bird dispersal. Here we investigate ploidy in the genus using flow cytometry and chromosome counting. We find the genus to be paleopolyploid with 2n = 4x = 36, a ploidy level characterizing the entire subfamily Amyridoideae and dating back to at least the Palaeocene. Therefore Hawaiian Melicope have not undergone recent polyploidization prior to colonization of the islands. Thus Melicope retained colonization success while exhibiting a combination of traits that typically characterize well established island specialists while lacking some traits associated to successful colonizers. [ABSTRACT FROM AUTHOR]

Published

2018

48. Phylogeny, historical biogeography, and diversification of angiosperm order Ericales suggest ancient Neotropical and East Asian connections.

Author

Rose, Jeffrey P., Kleist, Thomas J., Löfstrand, Stefan D., Drew, Bryan T., Schönenberger, Jürg, and Sytsma, Kenneth J.

Subjects

*PLANT molecular phylogenetics, *BIOGEOGRAPHY, *PLANT diversity, *ANGIOSPERMS, *ERICALES

Abstract

Inferring interfamilial relationships within the eudicot order Ericales has remained one of the more recalcitrant problems in angiosperm phylogenetics, likely due to a rapid, ancient radiation. As a result, no comprehensive time-calibrated tree or biogeographical analysis of the order has been published. Here, we elucidate phylogenetic relationships within the order and then conduct time-dependent biogeographical and diversification analyses by using a taxon and locus-rich supermatrix approach on one-third of the extant species diversity calibrated with 23 macrofossils and two secondary calibration points. Our results corroborate previous studies and also suggest several new but poorly supported relationships. Newly suggested relationships are: (1) holoparasitic Mitrastemonaceae is sister to Lecythidaceae, (2) the clade formed by Mitrastemonaceae + Lecythidaceae is sister to Ericales excluding balsaminoids, (3) Theaceae is sister to the styracoids + sarracenioids + ericoids, and (4) subfamilial relationships with Ericaceae suggest that Arbutoideae is sister to Monotropoideae and Pyroloideae is sister to all subfamilies excluding Arbutoideae, Enkianthoideae, and Monotropoideae. Our results indicate Ericales began to diversify 110 Mya, within Indo-Malaysia and the Neotropics, with exchange between the two areas and expansion out of Indo-Malaysia becoming an important area in shaping the extant diversity of many families. Rapid cladogenesis occurred along the backbone of the order between 104 and 106 Mya. Jump dispersal is important within the order in the last 30 My, but vicariance is the most important cladogenetic driver of disjunctions at deeper levels of the phylogeny. We detect between 69 and 81 shifts in speciation rate throughout the order, the vast majority of which occurred within the last 30 My. We propose that range shifting may be responsible for older shifts in speciation rate, but more recent shifts may be better explained by morphological innovation. [ABSTRACT FROM AUTHOR]

Published

2018

49. A revision of Xylopia L. (Annonaceae): the species of Tropical Africa.

Author

Johnson, David M. and Murray, Nancy A.

Subjects

*XYLOPIA, *PLANT species, *PLANTS

Abstract

A revision of the 45 species of the pantropical genus Xylopia in Tropical Africa includes descriptions of six new species and a new section of the genus. The fruits and seeds of Xylopia show specializations that promote vertebrate dispersal, primarily by hornbills and monkeys. Over half of the African species have an Area of Occupancy (AOO) less than 80 km2, suggesting that they are in need of protection. African species are classified into five sections. Section Neoxylopia, with four species, is centered in the Guineo-Congolian Region and includes X. globosa sp. nov. Section Ancistropetala, with three species, occurs in the same region. Both of these sections are endemic to Africa. Section Xylopia, which extends to Madagascar and the American tropics, has only a single species in Africa, X. aethiopica. The three species of section Verdcourtia sect. nov. are restricted to the East African coast and Madagascar. The largest number of African species, (34) belong to section Stenoxylopia, in which the seeds lack the arils found in the other sections and instead have a fleshy sarcotesta. Section Stenoxylopia is divided into two informal groups, one centered in eastern and southern Africa (X. odoratissima group) and the other centered in the wetter forests of western and central Africa (X. acutiflora group). Five new species are described in section Stenoxylopia: Xylopia nilotica sp. nov. from Sudan, South Sudan, and Uganda, Xylopia calva sp. nov. from Nigeria and Cameroon, which is allied to X. phloiodora, and Xylopia monticola sp. nov. from Nigeria and Cameroon, X. piratae sp. nov. from Ivory Coast and Ghana, and X. unguiculata sp. nov. from Gabon. The latter three species are segregates of the former Xylopia acutiflora s. l. One new combination is made at the species level, X. shirensis comb. nov. Keys, descriptions, illustrations, distribution maps, and an index to numbered collections document diversity and assist with species identification. The name Unona oliveriana Baill. was found to pre-date the name Unona lepidota Oliv., requiring the combination Meiocarpidium oliverianum comb. nov. [ABSTRACT FROM AUTHOR]

Published

2018

50. Rare long‐distance dispersal of a marine angiosperm across the Pacific Ocean.

Author

Smith, Timothy M., York, Paul H., Broitman, Bernardo R., Thiel, Martin, Hays, Graeme C., van Sebille, Erik, Putman, Nathan F., Macreadie, Peter I., and Sherman, Craig D. H.

Subjects

*DISPERSAL (Ecology), *ANGIOSPERMS, *COLONIES (Biology), *PHYTOGEOGRAPHY, *SEAGRASSES

Abstract

Abstract: Aim: Long‐distance dispersal (LDD) events occur rarely but play a fundamental role in shaping species biogeography. Lying at the heart of island biogeography theory, LDD relies on unusual events to facilitate colonization of new habitats and range expansion. Despite the importance of LDD, it is inherently difficult to quantify due to the rarity of such events. We estimate the probability of LDD of the seagrass Heterozostera nigricaulis, a common Australian species, across the Pacific Ocean to colonize South America. Location: Coastal Chile, Australia and the Pacific Ocean. Methods: Genetic analyses of H. nigricaulis collected from Chile and Australia were used to assess the relationship between the populations and levels of clonality. Ocean surface current models were used to predict the probability of propagules dispersing from south‐east Australia to central Chile and shipping data used to determine the likelihood of anthropogenic dispersal. Results: Our study infers that the seagrass H. nigricaulis dispersed from Australia across the entire width of the Pacific (c. 14,000 km) to colonize South America on two occasions. Genetic analyses reveal that these events led to two large isolated clones, one of which covers a combined area of 3.47 km2. Oceanographic models estimate the arrival probability of a dispersal propagule within 3 years to be at most 0.00264%. Early shipping provides a potential alternative dispersal vector, yet few ships sailed from SE Australia to Chile prior to the first recording of H. nigricaulis and the lack of more recent and ongoing introductions demonstrate the rarity of such dispersal. Main conclusions: These findings demonstrate LDD does occur over extreme distances despite very low probabilities. The large number of propagules (100s of millions) produced over 100s of years suggests that the arrival of propagules in Chile was inevitable and confirms the importance of LDD for species distributions and community ecology. [ABSTRACT FROM AUTHOR]

Published

2018