26 results on '"Krueger-Hadfield, S. A."'
Search Results
2. How do microbiota associated with an invasive seaweed vary across scales?
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Bonthond, G., Bayer, T., Krueger-Hadfield, S., Barboza, F., Nakaoka, M., Valero, M., Wang, G., Künzel, S., and Weinberger, F.
- Abstract
Communities are shaped by scale dependent processes. To study the diversity and variation of microbial communities across scales, the invasive and widespread seaweed Agarophyton vermiculophyllum presents a unique opportunity. We characterized pro- and eukaryotic communities associated with this holobiont across its known distribution range, which stretches over the northern hemisphere. Our data reveal that community composition and diversity in the holobiont vary at local but also larger geographic scales. While processes acting at the local scale (i.e., within population) are the main structuring drivers of associated microbial communities, changes in community composition also depend on processes acting at larger geographic scales. Interestingly, the largest analysed scale (i.e., native and non-native ranges) explained variation in the prevalence of predicted functional groups, which could suggest a functional shift in microbiota occurred over the course of the invasion process. While high variability in microbiota at the local scale supports A. vermiculophyllum to be a generalist host, we also identified a number of core taxa. These geographically independent holobiont members imply that cointroduction of specific microbiota may have additionally promoted the invasion process.
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- 2020
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3. Genera of phytopathogenic fungi: GOPHY 3
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Marin-Felix, Y., Hernández-Restrepo, M., Iturrieta-González, I., García, D., Gené, J., Groenewald, J. Z., Cai, L., Chen, Q., Quaedvlieg, W., Schumacher, R. K., Taylor, P. W.J., Ambers, C., Bonthond, G., Edwards, J., Krueger-Hadfield, S. A., Luangsa-ard, J. J., Morton, L., Moslemi, A., Sandoval-Denis, M., Tan, Y. P., Thangavel, R., Vaghefi, N., Cheewangkoon, R., Crous, P. W., Marin-Felix, Y., Hernández-Restrepo, M., Iturrieta-González, I., García, D., Gené, J., Groenewald, J. Z., Cai, L., Chen, Q., Quaedvlieg, W., Schumacher, R. K., Taylor, P. W.J., Ambers, C., Bonthond, G., Edwards, J., Krueger-Hadfield, S. A., Luangsa-ard, J. J., Morton, L., Moslemi, A., Sandoval-Denis, M., Tan, Y. P., Thangavel, R., Vaghefi, N., Cheewangkoon, R., and Crous, P. W.
- Abstract
This paper represents the third contribution in the Genera of Phytopathogenic Fungi (GOPHY) series. The series provides morphological descriptions, information about the pathology, distribution, hosts and disease symptoms for the treated genera, as well as primary and secondary DNA barcodes for the currently accepted species included in these. This third paper in the GOPHY series treats 21 genera of phytopathogenic fungi and their relatives including: Allophoma, Alternaria, Brunneosphaerella, Elsinoe, Exserohilum, Neosetophoma, Neostagonospora, Nothophoma, Parastagonospora, Phaeosphaeriopsis, Pleiocarpon, Pyrenophora, Ramichloridium, Seifertia, Seiridium, Septoriella, Setophoma, Stagonosporopsis, Stemphylium, Tubakia and Zasmidium. This study includes three new genera, 42 new species, 23 new combinations, four new names, and three typifications of older names.
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- 2019
4. Endophytic and epiphytic core microbiota associated with an invasive seaweed across the Northern Hemisphere
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Bonthond, Guido, Bayer, Till, Krueger-Hadfield, S. A., Wang, G., Nakaoka, M., Valero, M., Weinberger, Florian, Bonthond, Guido, Bayer, Till, Krueger-Hadfield, S. A., Wang, G., Nakaoka, M., Valero, M., and Weinberger, Florian
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- 2019
5. Genera of phytopathogenic fungi: GOPHY 3
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Ciències Mèdiques Bàsiques, Universitat Rovira i Virgili, Marin-Felix Y, Hernández-Restrepo M, Iturrieta-González I, García D, Gené J, Groenewald J, Cai L, Chen Q, Quaedvlieg W, Schumacher R, Taylor P, Ambers C, Bonthond G, Edwards J, Krueger-Hadfield S, Luangsa-ard J, Morton L, Moslemi A, Sandoval-Denis M, Tan Y, Thangavel R, Vaghefi N, Cheewangkoon R, Crous P, Ciències Mèdiques Bàsiques, Universitat Rovira i Virgili, and Marin-Felix Y, Hernández-Restrepo M, Iturrieta-González I, García D, Gené J, Groenewald J, Cai L, Chen Q, Quaedvlieg W, Schumacher R, Taylor P, Ambers C, Bonthond G, Edwards J, Krueger-Hadfield S, Luangsa-ard J, Morton L, Moslemi A, Sandoval-Denis M, Tan Y, Thangavel R, Vaghefi N, Cheewangkoon R, Crous P
- Abstract
© 2019 Westerdijk Fungal Biodiversity Institute This paper represents the third contribution in the Genera of Phytopathogenic Fungi (GOPHY) series. The series provides morphological descriptions, information about the pathology, distribution, hosts and disease symptoms for the treated genera, as well as primary and secondary DNA barcodes for the currently accepted species included in these. This third paper in the GOPHY series treats 21 genera of phytopathogenic fungi and their relatives including: Allophoma, Alternaria, Brunneosphaerella, Elsinoe, Exserohilum, Neosetophoma, Neostagonospora, Nothophoma, Parastagonospora, Phaeosphaeriopsis, Pleiocarpon, Pyrenophora, Ramichloridium, Seifertia, Seiridium, Septoriella, Setophoma, Stagonosporopsis, Stemphylium, Tubakia and Zasmidium. This study includes three new genera, 42 new species, 23 new combinations, four new names, and three typifications of older names.
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- 2019
6. RNA‐seq between asexual archeospores and meiosis‐related conchospores in Neopyropia yezoensis using Smart‐seq2.
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He, Bangxiang, Gu, Wenhui, Wang, Lijun, Zheng, Zhenbing, Shao, Zhizhuo, Huan, Li, Zhang, Baoyu, Ma, Yingchao, Niu, Jianfeng, Xie, Xiujun, Wang, Guangce, and Krueger‐Hadfield, S.
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RNA sequencing ,DNA replication ,HOMEOBOX genes ,CARBON fixation ,STEM cells ,MEIOSIS ,DNA helicases - Abstract
In the life cycle of Neopyropia yezoensis, a potential model system for marine macroalgae, both asexual archeospores and meiosis‐related conchospores develop into thalli (gametophyte). To understand this special life phenomenon in macroalgae, we picked out the two kinds of spores (10–30 cells in each sample) and conducted RNA‐seq using Smart‐seq2. Comparative analysis showed that light capture and carbon fixation associated differentially expressed genes (DEGs) were upregulated in archeospores, thus indicating that archeospores are in a state of rapid vegetative growth. In conchospores, protein synthesis and degradation, especially molecular chaperone, associated DEGs were up‐regulated, indicating that complex life activities might be occurring in conchospores. There were 68 genes related to DNA replication and repair expressed in conchospores, showing that active DNA replication might occur in conchospores. Moreover, we found that one conchospore specifically expressed DEG (py04595: DNA helicase) only in diploid stages (conchocelis, sporangial filament) and three archeospores specifically expressed DEGs only in haploid stages (thalli). These molecular level results indicated that conchospores were closer to diploid, and might be the meiotic mother cells of N. yezoensis. In addition, we found that the knotted‐like homeobox gene (PyKNOX), which might relate to the transition of gametophyte from sporophyte, was only expressed in sporophyte generation but not expressed in conchospores, archeospores and thalli, indicating the morphogenesis of gametophyte sin N. yezoensis might require the inactivation of PyKNOX. [ABSTRACT FROM AUTHOR]
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- 2021
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7. Ecological, physiological, and biomechanical differences between gametophytes and sporophytes of Chondrus ocellatus (Gigartinales, Rhodophyta)1.
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Kamiya, Mitsunobu, Inoue, Naoto, Suzuki, Chika, Abe, Shin‐ichiro, and Krueger‐Hadfield, S.
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GAMETOPHYTES ,GIGARTINALES ,SURVIVAL rate ,PHOTOSYNTHETIC rates - Abstract
Although variation among habitats in the ratio of gametophytes to sporophytes has been reported in various gigartinacean species, factors controlling the phase ratio remain poorly understood. Over 18 months, we examined the phase ratio of Chondrus ocellatus at three sites: a sheltered intertidal site, Hiruga A; an exposed intertidal site, Hiruga B; and a subtidal site, Shikimi. The mean proportion of gametophytes at Hiruga A (73.1%) was significantly higher than that at Shikimi (51.2%) and Hiruga B (44.7%). Due to a significantly higher water retention ability of the gametophytes, it was expected that the gametophytes would exhibit higher desiccation tolerance. After dehydration treatments, however, neither the photosynthetic rate of vegetative blades nor the survival rate of spores was significantly different between the phases. Measurements of blade strength indicated that the sporophytic blades were less stiff and more flexible, and a culture experiment revealed that the sporophytic germlings showed a significantly higher growth rate. Flexible blades and fast‐growing germlings are considered advantageous for colonizing wave‐swept intertidal habitats, so these properties may have caused the different fluctuation pattern of phase ratio among the sites. The present data demonstrate that biomechanical and physiological differences between the two phases of C. ocellatus make one phase advantageous in certain environmental conditions, and that these differences likely cause an unequal ratio of isomorphic phases. [ABSTRACT FROM AUTHOR]
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- 2021
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8. Biochemical characteristics of a diffusible factor that induces gametophyte to sporophyte switching in the brown alga Ectocarpus.
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Yao, Haiqin, Scornet, Delphine, Jam, Murielle, Hervé, Cécile, Potin, Philippe, Oliveira Correia, Lydie, Coelho, Susana M., Cock, J. Mark, and Krueger‐Hadfield, S.
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DEVELOPMENTAL programs ,MOLECULAR weights ,ARABINOGALACTAN ,TRANSCRIPTION factors ,GLYCOPROTEINS ,BROWN algae - Abstract
The haploid‐diploid life cycle of the filamentous brown alga Ectocarpus involves alternation between two independent and morphologically distinct multicellular generations, the sporophyte and the gametophyte. Deployment of the sporophyte developmental program requires two TALE homeodomain transcription factors OUROBOROS and SAMSARA. In addition, the sporophyte generation has been shown to secrete a diffusible factor that can induce uni‐spores to switch from the gametophyte to the sporophyte developmental program. Here, we determine optimal conditions for production, storage, and detection of this diffusible factor and show that it is a heat‐resistant, high molecular weight molecule. Based on a combined approach involving proteomic analysis of sporophyte‐conditioned medium and the use of biochemical tools to characterize arabinogalactan proteins, we present evidence that sporophyte‐conditioned medium contains AGP epitopes and suggest that the diffusible factor may belong to this family of glycoproteins. [ABSTRACT FROM AUTHOR]
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- 2021
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9. Differential Frond Growth in the Isomorphic Haploid–diploid Red Seaweed Agarophyton chilense by Long‐term In Situ Monitoring.
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Vieira, Vasco M.N.C.S., Engelen, Aschwin H., Huanel, Oscar R., Guillemin, Marie‐Laure, and Krueger‐Hadfield, S.
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RED algae ,MARINE plants ,LEMNA minor ,HAPLOIDY - Abstract
Conditional differentiation between haploids and diploids has been proposed to drive the evolutionary stability of isomorphic biphasic life cycles. The cost of producing and maintaining genetic information has been posed as a possible driver of this conditional differentiation. Under this hypothesis, haploids benefit over diploids in resource‐limited environments by halving the costs of producing and maintaining DNA. Spared resources can be allocated to enhance survival, growth or fertility. Here we test in the field whether indeed haploids have higher growth rates than diploids. Individuals of the red seaweed Agarophyton chilense, were mapped and followed during 2 years with 4‐month census intervals across different stands within the Valdivia River estuary, Chile. As hypothesized, haploids grew larger and faster than diploids, but this was sex‐dependent. Haploid (gametophyte) females grew twice as large and 15% faster than diploids (tetrasporophytes), whereas haploid males only grew as large and as fast as the maximum obtained by diploids in summer. However, haploid males maintained their maximum sizes and growth rates constant year‐round, while diploids were smaller and had lower growth rates during the winter. In conclusion, our results confirm the conditional differentiation in size and growth between haploids and diploids but also identified important differences between males and females. Besides understanding life cycle evolution, the dynamics of A. chilense frond growth reported informs algal farmers regarding production optimization and should help in determining best planting and harvesting strategies. [ABSTRACT FROM AUTHOR]
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- 2021
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10. Combining niche-shift and population genetic analyses predicts rapid phenotypic evolution during invasion
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Sotka, E. E, Baumgardner, A. W., Bippus, P. M., Destombe, C., Duermit, E. A., Endo, H., Flanagan, B. A., Kamiya, M., Lees, L. E., Murren, C. J., Nakaoka, M., Shainker, S. J., Strand, A. E., Terada, R., Valero, M., Weinberger, Florian, Krueger-Hadfield, S. A., Sotka, E. E, Baumgardner, A. W., Bippus, P. M., Destombe, C., Duermit, E. A., Endo, H., Flanagan, B. A., Kamiya, M., Lees, L. E., Murren, C. J., Nakaoka, M., Shainker, S. J., Strand, A. E., Terada, R., Valero, M., Weinberger, Florian, and Krueger-Hadfield, S. A.
- Abstract
Rapid evolution of non-native species can facilitate invasion success, but recent reviews indicate that such microevolution rarely yields expansion of the climatic niche in the introduced habitats. However, because some invasions originate from a geographically restricted portion of the native species range and its climatic niche, it is possible that the frequency, direction and magnitude of phenotypic evolution during invasion has been underestimated. We explored the utility of niche-shift analyses in the red seaweed Gracilaria vermiculophylla, which expanded its range from the northeastern coastline of Japan to North America, Europe and northwestern Africa within the last 100 years. A genetically-informed climatic niche shift analysis indicates that native source populations occur in colder and highly seasonal habitats, while most non-native populations typically occur in warmer, less seasonal habitats. This climatic niche expansion predicts that non-native populations evolved greater tolerance for elevated heat conditions relative to native source populations. We assayed 935 field-collected and 325 common-garden thalli from 40 locations and as predicted, non-native populations had greater tolerance for ecologically-relevant extreme heat (40°C) than did Japanese source populations. Non-native populations also had greater tolerance for cold and low-salinity stresses relative to source populations. The importance of local adaptation to warm temperatures during invasion was reinforced by evolution of parallel clines: populations from warmer, lower-latitude estuaries had greater heat tolerance than did populations from colder, higher-latitude estuaries in both Japan and eastern North America. We conclude that rapid evolution plays an important role in facilitating the invasion success of this and perhaps other non-native marine species. Genetically-informed ecological niche analyses readily generate clear predictions of phenotypic shifts during invasions, and may help
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- 2018
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11. Comparative phylogeography of two Agarophyton species in the New Zealand archipelago.
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Huanel, Oscar R., Nelson, Wendy A., Robitzch, Vanessa, Mauger, Stéphane, Faugeron, Sylvain, Preuss, Maren, Zuccarello, Giuseppe C., Guillemin, Marie‐Laure, and Krueger‐Hadfield, S.
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COEXISTENCE of species ,PHYLOGEOGRAPHY ,ARCHIPELAGOES ,SPECIES diversity ,SPECIES - Abstract
Molecular studies have reported the coexistence of two species of Agarophyton in New Zealand: the newly described A.transtasmanicum with an apparently restricted distribution to some sites in the North Island, and the more widespread A.chilense. Here, we compared the distribution, genetic diversity, and structure of both Agarophyton species throughout the archipelago using sequences of the nuclear Internal Transcribed Spacer 2 (ITS2) marker. Agarophyton chilense's distribution was continuous and extensive along the North and South Islands, Stewart Island, and Chatham Island, and the genetic clusters were mostly concordant with boundaries between biogeographic regions. In contrast, specimens of A.transtasmanicum were collected in four sites broadly distributed in both the North and South Islands, with no clear spatial structure of the genetic diversity. Populations, where the species co‐occurred, tended to display similar levels in genetic diversity for the two species. Demographic inferences supported a postglacial demographic expansion for two A.chilense genetic clusters, one present in the South Island and the eastern coast of the North Island, and the other present in northern South Island. A third genetic cluster located on the western coast of the North Island had a signature of long‐term demographic stability. For A.transtasmanicum, the skyline plot also suggested a postglacial demographic expansion. Last, we developed a new molecular tool to quickly and easily distinguish between the two Agarophyton species, which could be used to ease future fine‐scale population studies, especially in areas where the two species coexist. [ABSTRACT FROM AUTHOR]
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- 2020
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12. Estimating the ploidy of Gracilariopsis lemaneiformis at both the cellular and genomic level1.
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Chen, Haihong, Feng, Xiaoqing, Jiang, Minjie, Xiao, Baoheng, Zhang, Jingyu, Zhang, Wei, Hu, Yiyi, Sui, Zhenghong, and Krueger‐Hadfield, S.
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PLOIDY ,POLYPLOIDY ,FLUORESCENCE in situ hybridization ,HAPLOIDY ,DNA probes ,RED algae ,CHROMOSOMES ,SOMATIC cells - Abstract
The determination of the ploidy level of an organism is a prerequisite for studies of evolution, cellular function, and genomic construction. Identification of the ploidy of the economically important red alga Gracilariopsis lemaneiformis has been hindered by its small genome and large number of chromosomes. Therefore, in the current study, PloidyNGS, a tool that calculates the number of reads supporting different alleles at each position along the genome sequence, and fluorescence in situ hybridization coupled with tyramide signal amplification (TSA‐FISH) were used to clarify the ploidy of G. lemaneiformis. In addition, flow cytometry (FCM) was used to estimate the ploidy of different somatic cells. The PloidyNGS results showed that most of the alleles in the gametophyte were monomorphic, whereas the TSA‐FISH results showed that one hybridization signal was observed in gametophytic nuclei and two in tetrasporophytic nuclei when the nuclei were hybridized by single copy gene probes. These results confirmed that G. lemaneiformis is a haploid in the gametophytic generation and diploid in the sporophytic generation. Moreover, the FCM result suggested that G. lemaneiformis was not an endopolyploid. Based on previous studies, we hypothesize that the nuclear number is important for the cellular differentiation and function of this species. We also suggest that G. lemaneiformis evolved from a paleopolyploid, the genome of which has been diploidized, and that traces of genomic doubling are no longer apparent. Thus, this study provides important evidence for further studies on the evolution and genomes of red algae. [ABSTRACT FROM AUTHOR]
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- 2020
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13. Cryptic Haploid Stages in the Life Cycle of Leathesia marina (Chordariaceae, Phaeophyceae) Under In Vitro Culture.
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Poza, Ailen M., Santiañez, Wilfred John E., Croce, M. Emilia, Gauna, M. Cecilia, Kogame, Kazuhiro, Parodi, Elisa R., and Krueger‐Hadfield, S.
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FLOW cytometry ,PLOIDY ,ZOSTERA marina ,BROWN algae ,GAMETES - Abstract
We evaluated the life cycle of Leathesia marina through molecular analyses, culture studies, morphological observations, and ploidy measurements. Macroscopic sporophytes were collected from two localities in Atlantic Patagonia and were cultured under long‐day (LD) and short‐day (SD) conditions. Molecular identification of the microscopic and macroscopic phases was performed through the cox3 and rbcL genes and the phylogeny was assessed on the basis of single gene and concatenated datasets. Nuclear ploidy of each phase was estimated from the DNA contents of individual nuclei through epifluorescence microscopy and flow cytometry. Molecular results confirmed the identity of the Argentinian specimens as L. marina and revealed their conspecificity with L. marina from New Zealand, Germany, and Japan. The sporophytic macrothalli (2n) released mitospores from plurilocular sporangia, which developed into globular microthalli (2n), morphologically similar to the sporophytes but not in size, constituting a generation of small diploid thalli, with a mean fluorescent nuclei cross‐sectional area of 3.21 ± 0.7 μm2. The unilocular sporangia released meiospores that developed two morphologically different types of microthalli: erect branched microthalli (n) with a nuclear area of 1.48 ± 0.07 µm2 that reproduces asexually, and prostrate branched microthalli (n) with a nuclear area of 1.24 ± 0.10 µm2 that reproduces sexually. The prostrate microthalli released gametes in LD conditions, which merged and produced macroscopic thalli with a nuclear cross‐sectional area of 3.45 ± 0.09 µm2. Flow cytometry confirmed that the erect and prostrate microthalli were haploid and that the globular microthalli and macrothalli were diploid. [ABSTRACT FROM AUTHOR]
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- 2020
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14. In situ common garden assays demonstrate increased defense against natural fouling in non-native populations of the red seaweed Gracilaria vermiculophylla
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Wang, Shasha, Weinberger, Florian, Xiao, L., Nakaoka, M., Wang, G., Krueger-Hadfield, S. A., Bian, D., Lenz, Mark, Wang, Shasha, Weinberger, Florian, Xiao, L., Nakaoka, M., Wang, G., Krueger-Hadfield, S. A., Bian, D., and Lenz, Mark
- Abstract
The susceptibility of native and non-native populations of the red alga Gracilaria vermiculophylla to fouling was compared in common garden experiments. Native and non-native algae were enclosed into dialysis membrane tubes, and the tubes were exposed to natural fouling. Fouling on the outside of the tubes was mediated by chemical compounds excreted by G. vermiculophylla that diffused through the membranes. Fouling pressure was significantly higher in the Kiel Fjord (non-native range) than in Akkeshi Bay (native range), but, at both sites, tubes containing non-native G. vermiculophylla were less fouled than those with native conspecifics. This is the first in situ evidence that susceptibility to fouling differs between native and non-native populations of an aquatic organism. The technique of enclosing organisms into dialysis tubes represents a simple, efficient and accurate way to test chemical antifouling defenses and could possibly be applied to other organisms.
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- 2017
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15. Dual influence of terrestrial and marine historical processes on the phylogeography of the Brazilian intertidal red alga Gracilaria caudata.
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Ayres‐Ostrock, Lígia M., Valero, Myriam, Mauger, Stéphane, Oliveira, Mariana C., Plastino, Estela M., Guillemin, Marie‐Laure, Destombe, Christophe, and Krueger‐Hadfield, S.
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RED algae ,GRACILARIA ,CERAMIALES ,LAST Glacial Maximum ,PHYLOGEOGRAPHY ,MICROSATELLITE repeats - Abstract
In this study, we explored how past terrestrial and marine climate changes have interacted to shape the phylogeographic patterns of the intertidal red seaweed Gracilaria caudata, an economically important species exploited for agar production in the Brazilian north‐east. Seven sites were sampled along the north‐east tropical and south‐east sub‐tropical Brazilian coast. The genetic diversity and structure of G. caudata was inferred using a combination of mitochondrial (COI and cox2‐3), chloroplast (rbcL) and 15 nuclear microsatellite markers. A remarkable congruence between nuclear, mitochondrial and chloroplast data revealed clear separation between the north‐east (from 03° S to 08° S) and the south‐east (from 20° S to 23° S) coast of Brazil. These two clades differ in their demographic histories, with signatures of recent demographic expansions in the north‐east and divergent populations in the south‐east, suggesting the maintenance of several refugia during the last glacial maximum due to sea‐level rise and fall. The Bahia region (around 12° S) occupies an intermediate position between both clades. Microsatellites and mtDNA markers showed additional levels of genetic structure within each sampled site located south of Bahia. The separation between the two main groups in G. caudata is likely recent, probably occurring during the Quaternary glacial cycles. The genetic breaks are concordant with (i) those separating terrestrial refugia, (ii) major river outflows and (iii) frontiers between tropical and subtropical regions. Taken together with previously published eco‐physiological studies that showed differences in the physiological performance of the strains from distinct locations, these results suggest that the divergent clades in G. caudata correspond to distinct ecotypes in the process of incipient speciation and thus should be considered for the management policy of this commercially important species. [ABSTRACT FROM AUTHOR]
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- 2019
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16. Genotyping an Emiliania huxleyi (prymnesiophyceae) bloom event in the North Sea reveals evidence of asexual reproduction
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Krueger-Hadfield, S. A., Balestreri, C., Schroeder, J., Highfield, A., Helaouët, P., Allum, J., Moate, R., Lohbeck, Kai T., Miller, P. I., Riebesell, Ulf, Reusch, Thorsten B.H., Rickaby, R. E. M., Young, J., Hallegraeff, G., Brownlee, C., Schroeder, D. C., Krueger-Hadfield, S. A., Balestreri, C., Schroeder, J., Highfield, A., Helaouët, P., Allum, J., Moate, R., Lohbeck, Kai T., Miller, P. I., Riebesell, Ulf, Reusch, Thorsten B.H., Rickaby, R. E. M., Young, J., Hallegraeff, G., Brownlee, C., and Schroeder, D. C.
- Abstract
Due to the unprecedented rate at which our climate is changing, the ultimate consequence for many species is likely to be either extinction or migration to an alternate habitat. Certain species might, however, evolve at a rate that could make them resilient to the effects of a rapidly changing environment. This scenario is most likely to apply to species that have large population sizes and rapid generation times, such that the genetic variation required for adaptive evolution can be readily supplied. Emiliania huxleyi (Lohm.) Hay and Mohler (Prymnesiophyceae) is likely to be such a species, as it is the most conspicuous extant calcareous phytoplankton species in our oceans with growth rates of 1 day−1. Here we report on a validated set of microsatellites, in conjunction with the coccolithophore morphology motif genetic marker, to genotype 93 clonal isolates collected from across the world. Of these, 52 came from a single bloom event in the North Sea collected on the D366 United Kingdom Ocean Acidification cruise in June–July 2011. There were 26 multilocus genotypes (MLGs) encountered only once in the North Sea bloom and 8 MLGs encountered twice or up to six times. Each of these repeated MLGs exhibited Psex values of less than 0.05, indicating each repeated MLG was the product of asexual reproduction and not separate meiotic events. In addition, we show that the two most polymorphic microsatellite loci, EHMS37 and P01E05, are reporting on regions likely undergoing rapid genetic drift during asexual reproduction. Despite the small sample size, there were many more repeated genotypes than previously reported for other bloom-forming phytoplankton species, including a previously genotyped E. huxleyi bloom event. This study challenges the current assumption that sexual reproduction predominates during bloom events. Whilst genetic diversity is high amongst extant populations of E. huxleyi, the root cause for this diversity and ultimate fate of these populations still requ
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- 2014
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17. Genotyping an <i>Emiliania huxleyi</i> (prymnesiophyceae) bloom event in the North Sea reveals evidence of asexual reproduction
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Krueger-Hadfield, S. A., primary, Balestreri, C., additional, Schroeder, J., additional, Highfield, A., additional, Helaouët, P., additional, Allum, J., additional, Moate, R., additional, Lohbeck, K. T., additional, Miller, P. I., additional, Riebesell, U., additional, Reusch, T. B. H., additional, Rickaby, R. E. M., additional, Young, J., additional, Hallegraeff, G., additional, Brownlee, C., additional, and Schroeder, D. C., additional
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- 2014
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18. O father where art thou? Paternity analyses in a natural population of the haploid–diploid seaweed Chondrus crispus
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Krueger-Hadfield, S A, primary, Roze, D, additional, Correa, J A, additional, Destombe, C, additional, and Valero, M, additional
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- 2014
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19. Supplementary material to "Genotyping an <i>Emiliania huxleyi</i> (Prymnesiophyceae) bloom event in the North Sea reveals evidence of asexual reproduction"
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Krueger-Hadfield, S. A., primary, Balestreri, C., additional, Schroeder, J., additional, Highfield, A., additional, Helaouët, P., additional, Allum, J., additional, Moate, R., additional, Lohbeck, K. T., additional, Miller, P. I., additional, Riebesell, U., additional, Reusch, T. B. H., additional, Rickaby, R. E. M., additional, Young, J., additional, Hallegraeff, G., additional, Brownlee, C., additional, and Schroeder, D. C., additional
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- 2014
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20. Genotyping an Emiliania huxleyi (Prymnesiophyceae) bloom event in the North Sea reveals evidence of asexual reproduction
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Krueger-Hadfield, S. A., primary, Balestreri, C., additional, Schroeder, J., additional, Highfield, A., additional, Helaouët, P., additional, Allum, J., additional, Moate, R., additional, Lohbeck, K. T., additional, Miller, P. I., additional, Riebesell, U., additional, Reusch, T. B. H., additional, Rickaby, R. E. M., additional, Young, J., additional, Hallegraeff, G., additional, Brownlee, C., additional, and Schroeder, D. C., additional
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- 2014
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21. To be the same or maybe close: genetic diversity in an Emiliania Huxleyi bloom and implications for phytoplankton population genetics
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Krueger-Hadfield, S. A., Balestreri, C., Schroeder, J. L., Highfield, A. C., Lohbeck, Kai T., Riebesell, Ulf, Reusch, Thorsten B.H., Rickaby, R. E., Young, J., Cook, S., Krueger-Hadfield, S. A., Balestreri, C., Schroeder, J. L., Highfield, A. C., Lohbeck, Kai T., Riebesell, Ulf, Reusch, Thorsten B.H., Rickaby, R. E., Young, J., and Cook, S.
- Published
- 2013
22. Intergametophytic selfing and microgeographic genetic structure shape populations of the intertidal red seaweed Chondrus crispus
- Author
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Krueger‐Hadfield, S. A., primary, Roze, D., additional, Mauger, S., additional, and Valero, M., additional
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- 2013
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23. O father where art thou? Paternity analyses in a natural population of the haploid-diploid seaweed Chondrus crispus.
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Krueger-Hadfield, S. A., Roze, D., Correa, J. A., Destombe, C., and Valero, M.
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CHONDRUS crispus , *MARINE algae , *HAPLOIDY , *DIPLOIDY , *GENOTYPES , *SEXUAL cycle , *GAMETES - Abstract
The link between life history traits and mating systems in diploid organisms has been extensively addressed in th e literature, whereas the degree of selfing and/or inbreeding in natural populations of h ap loid-diploid organisms, in which haploid gametophytes alternate with diploid sporophytes, has been rarely measured. Dioecy has often been used as a proxy for the mating system in these organisms. Yet, dioecy does not prevent the fusion of gametes from male and fem ale gametophytes originating from th e same sporophyte. This is likely a common occurrence when spores from th e same parent are dispersed in clumps and recruit together. This pattern of clumped spore dispersal has been hypothesized to explain significant heterozygote deficiency in the dioecious haplo id-d iploid seaweed Chondrus crispus. Fronds and cystocarps (structures in which zygotes are mitotically am plified) were sampled in two 25 m2 plots located within a high and a low intertidal zone and genotyped at 5 polymorphic microsatellite loci in order to explore the mating system directly using paternity analyses. Mu ltip le males sired cystocarps on each fem ale, but only one of the 423 paternal genotypes corresponded to a field-sampled gametophyte. Nevertheless, larger kinship coefficients were detected between males siring cystocarps on th e same fem a le in comparison with males in the entire population, confirming restricted spermatial and clumped spore dispersal. Such dispersal mechanisms may be a mode of reproductive assurance due to nonmotile gametes associated with putatively reduced effects of inbreeding depression because of th e free-living haploid stage in C. crispus. [ABSTRACT FROM AUTHOR]
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- 2015
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24. Ecological, physiological, and biomechanical differences between gametophytes and sporophytes of Chondrus ocellatus (Gigartinales, Rhodophyta)1.
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Kamiya, Mitsunobu, Inoue, Naoto, Suzuki, Chika, Abe, Shin‐ichiro, and Krueger‐Hadfield, S.
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GAMETOPHYTES , *GIGARTINALES , *SURVIVAL rate , *PHOTOSYNTHETIC rates - Abstract
Although variation among habitats in the ratio of gametophytes to sporophytes has been reported in various gigartinacean species, factors controlling the phase ratio remain poorly understood. Over 18 months, we examined the phase ratio of Chondrus ocellatus at three sites: a sheltered intertidal site, Hiruga A; an exposed intertidal site, Hiruga B; and a subtidal site, Shikimi. The mean proportion of gametophytes at Hiruga A (73.1%) was significantly higher than that at Shikimi (51.2%) and Hiruga B (44.7%). Due to a significantly higher water retention ability of the gametophytes, it was expected that the gametophytes would exhibit higher desiccation tolerance. After dehydration treatments, however, neither the photosynthetic rate of vegetative blades nor the survival rate of spores was significantly different between the phases. Measurements of blade strength indicated that the sporophytic blades were less stiff and more flexible, and a culture experiment revealed that the sporophytic germlings showed a significantly higher growth rate. Flexible blades and fast‐growing germlings are considered advantageous for colonizing wave‐swept intertidal habitats, so these properties may have caused the different fluctuation pattern of phase ratio among the sites. The present data demonstrate that biomechanical and physiological differences between the two phases of C. ocellatus make one phase advantageous in certain environmental conditions, and that these differences likely cause an unequal ratio of isomorphic phases. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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25. Estimating the ploidy of Gracilariopsis lemaneiformis at both the cellular and genomic level1.
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Chen, Haihong, Feng, Xiaoqing, Jiang, Minjie, Xiao, Baoheng, Zhang, Jingyu, Zhang, Wei, Hu, Yiyi, Sui, Zhenghong, and Krueger‐Hadfield, S.
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PLOIDY , *POLYPLOIDY , *FLUORESCENCE in situ hybridization , *HAPLOIDY , *DNA probes , *RED algae , *CHROMOSOMES , *SOMATIC cells - Abstract
The determination of the ploidy level of an organism is a prerequisite for studies of evolution, cellular function, and genomic construction. Identification of the ploidy of the economically important red alga Gracilariopsis lemaneiformis has been hindered by its small genome and large number of chromosomes. Therefore, in the current study, PloidyNGS, a tool that calculates the number of reads supporting different alleles at each position along the genome sequence, and fluorescence in situ hybridization coupled with tyramide signal amplification (TSA‐FISH) were used to clarify the ploidy of G. lemaneiformis. In addition, flow cytometry (FCM) was used to estimate the ploidy of different somatic cells. The PloidyNGS results showed that most of the alleles in the gametophyte were monomorphic, whereas the TSA‐FISH results showed that one hybridization signal was observed in gametophytic nuclei and two in tetrasporophytic nuclei when the nuclei were hybridized by single copy gene probes. These results confirmed that G. lemaneiformis is a haploid in the gametophytic generation and diploid in the sporophytic generation. Moreover, the FCM result suggested that G. lemaneiformis was not an endopolyploid. Based on previous studies, we hypothesize that the nuclear number is important for the cellular differentiation and function of this species. We also suggest that G. lemaneiformis evolved from a paleopolyploid, the genome of which has been diploidized, and that traces of genomic doubling are no longer apparent. Thus, this study provides important evidence for further studies on the evolution and genomes of red algae. [ABSTRACT FROM AUTHOR]
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- 2020
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26. Genera of phytopathogenic fungi: GOPHY 3.
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Marin-Felix Y, Hernández-Restrepo M, Iturrieta-González I, García D, Gené J, Groenewald JZ, Cai L, Chen Q, Quaedvlieg W, Schumacher RK, Taylor PWJ, Ambers C, Bonthond G, Edwards J, Krueger-Hadfield SA, Luangsa-Ard JJ, Morton L, Moslemi A, Sandoval-Denis M, Tan YP, Thangavel R, Vaghefi N, Cheewangkoon R, and Crous PW
- Abstract
This paper represents the third contribution in the Genera of Phytopathogenic Fungi (GOPHY) series. The series provides morphological descriptions, information about the pathology, distribution, hosts and disease symptoms for the treated genera, as well as primary and secondary DNA barcodes for the currently accepted species included in these. This third paper in the GOPHY series treats 21 genera of phytopathogenic fungi and their relatives including: Allophoma , Alternaria , Brunneosphaerella , Elsinoe , Exserohilum , Neosetophoma , Neostagonospora , Nothophoma , Parastagonospora , Phaeosphaeriopsis , Pleiocarpon , Pyrenophora , Ramichloridium , Seifertia , Seiridium , Septoriella , Setophoma , Stagonosporopsis , Stemphylium , Tubakia and Zasmidium . This study includes three new genera, 42 new species, 23 new combinations, four new names, and three typifications of older names., (© 2019 Westerdijk Fungal Biodiversity Institute. Production and hosting by ELSEVIER B.V.)
- Published
- 2019
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