Your search keyword '"Mareike Hammann"' showing total 8 results

1. Increased potential for wound activated production of Prostaglandin E2 and related toxic compounds in non-native populations of Gracilaria vermiculophylla

Author

Georg Pohnert, Florian Weinberger, Mareike Hammann, Sung Min Boo, Martin Rempt, and Gaoge Wang

Subjects

0106 biological sciences, Mesograzer, biology, 010604 marine biology & hydrobiology, Littorina brevicula, Prostaglandin, Plant Science, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Acclimatization, chemistry.chemical_compound, chemistry, Ogonori, Botany, medicine, Chemical defense, Prostaglandin E2, Gracilaria, medicine.drug

Abstract

Highlights: • Wound activated prostaglandin production was quantified in Gracilaria vermiculophylla. • Specimens from non-native populations contained higher prostaglandin concentrations. • Prostaglandins and related compounds deter animal consumers. • Activated defense through Prostaglandins was selected during Gracilaria's invasion history. • As a consequence specimens from invasive populations are not safe for human consumption. Abstract: The capacity of the East Asian seaweed Gracilaria vermiculophylla (“Ogonori”) for production of prostaglandin E2 from arachidonic acid occasionally causes food poisoning after ingestion. During the last two decades the alga has been introduced to Europe and North America. Non-native populations have been shown to be generally less palatable to marine herbivores than native populations. We hypothesized that the difference in palatability among populations could be due to differences in the algal content of prostaglandins. We therefore compared the capacity for wound-activated production of prostaglandins and other eicosatetraenoid oxylipins among five native populations in East Asia and seven non-native populations in Europe and NW Mexico, using a targeted metabolomics approach. In two independent experiments non-native populations exhibited a significant tendency to produce more eicosatetraenoids than native populations after acclimation to identical conditions and subsequent artificial wounding. Fourteen out of 15 eicosatetraenoids that were detected in experiment I and all 19 eicosatetraenoids that were detected in experiment II reached higher mean concentrations in non-native than in native specimens. Wounding of non-native specimens resulted on average in 390% more 15-keto-PGE2, in 90% more PGE2, in 37% more PGA2 and in 96% more 7,8-di-hydroxy-eicosatetraenoic acid than wounding of native specimens. Not only PGE2, but also PGA2 and dihydroxylated eicosatetraenoic acid are known to deter various biological enemies of G. vermiculophylla that cause tissue or cell wounding, and in the present study the latter two compounds also repelled the mesograzer Littorina brevicula. Non-native populations of G. vermiculophylla are thus more defended against herbivory than native populations. This increased capacity for activated chemical defense may have contributed to their invasion success and at the same time it poses an elevated risk for human food safety.

Published

2016

2. Genetic identification of source and likely vector of a widespread marine invader

Author

James E. Byers, Nicole M. Kollars, David C. Murray, Allan E. Strand, Ryuta Terada, Thomas W. Greig, Mareike Hammann, Stacy A. Krueger-Hadfield, Sarah J. Shainker, Erik E. Sotka, and Florian Weinberger

Subjects

0106 biological sciences, Oyster, Range (biology), Northwest Pacific, Fishing, Population genetics, Introduced species, biological invasion, Biology, phylogeography, 010603 evolutionary biology, 01 natural sciences, Aquaculture, biology.animal, 14. Life underwater, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Original Research, algae, geography, geography.geographical_feature_category, Ecology, business.industry, 010604 marine biology & hydrobiology, population genetics, Estuary, 15. Life on land, Phylogeography, oysters, business

Abstract

The identification of native sources and vectors of introduced species informs their ecological and evolutionary history and may guide policies that seek to prevent future introductions. Population genetics provides a powerful set of tools to identify origins and vectors. However, these tools can mislead when the native range is poorly sampled or few molecular markers are used. Here, we traced the introduction of the Asian seaweed Gracilaria vermiculophylla (Rhodophyta) into estuaries in coastal western North America, the eastern United States, Europe, and northwestern Africa by genotyping more than 2,500 thalli from 37 native and 53 non‐native sites at mitochondrial cox1 and 10 nuclear microsatellite loci. Overall, greater than 90% of introduced thalli had a genetic signature similar to thalli sampled from the coastline of northeastern Japan, strongly indicating this region served as the principal source of the invasion. Notably, northeastern Japan exported the vast majority of the oyster Crassostrea gigas during the 20th century. The preponderance of evidence suggests G. vermiculophylla may have been inadvertently introduced with C. gigas shipments and that northeastern Japan is a common source region for estuarine invaders. Each invaded coastline reflected a complex mix of direct introductions from Japan and secondary introductions from other invaded coastlines. The spread of G. vermiculophylla along each coastline was likely facilitated by aquaculture, fishing, and boating activities. Our ability to document a source region was enabled by a robust sampling of locations and loci that previous studies lacked and strong phylogeographic structure along native coastlines.

Published

2017

3. Invasion success of the seaweed Gracilaria vermiculophylla correlates with low palatibility

Author

Gaoge Wang, Florian Weinberger, Mareike Hammann, Sung Min Boo, and Esther Rickert

Subjects

0106 biological sciences, Herbivore, Ecology, biology, Range (biology), 010604 marine biology & hydrobiology, Littorina brevicula, Aquatic animal, Snail, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Invasive species, Algae, biology.animal, 14. Life underwater, Palatability, Ecology, Evolution, Behavior and Systematics

Abstract

Differences with respect to anti-herbivore defense were investigated in invasive and native populations of the seaweed Gracilaria vermiculophylla. Specimens from 6 native populations in East Asia and from 8 populations invasive in Europe and the Mexican Pacific coast were maintained under identical conditions and offered to herbivorous snails from both the native range (Littorina brevicula) and Europe (L. littorea) in no-choice feeding assays. L. brevicula consumed in total significantly larger amounts of G. vermiculophylla tissue than did L. littorea. Further, both snail species least consumed the seaweed specimens originating from either non-native populations or from populations native to the Korean East Sea/Sea of Japan. The Korean East Sea/Sea of Japan had previously been identified as putative donor region of all the invasive populations of G. vermiculophylla. Thus, populations in the donor region as well as non-native populations in different invaded realms feature an increased capacity to resist feeding pressure. Differences in nutrient content did not account for the observed patterns of consumption, as palatability and carbon to nitrogen (C:N) ratio were not significantly correlated. Thus, mechanical or chemical defenses or the content of feeding cues influenced the behavior of the snails. We suggest that low palatability contributed to the invasion success of the species.

Published

2013

4. Direct and indirect effects of Gracilaria vermiculophylla on native Fucus vesiculosus

Author

Mareike Hammann, Björn Buchholz, Florian Weinberger, and Rolf Karez

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, Perennial plant, biology, Ecology, 010604 marine biology & hydrobiology, media_common.quotation_subject, Fucus vesiculosus, Fjord, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Competition (biology), Plant ecology, Aquatic plant, Botany, Fucus, 14. Life underwater, Gracilaria, Water Science and Technology, media_common

Abstract

The perennial red macroalga Gracilaria vermiculophylla (Ohmi) Papenfuss has recently been introduced to the Baltic Sea and is a potential competitor to Fucus vesiculosus, the most common native perennial alga in large parts of the Baltic Sea. Gracilaria might interfere with Fucus through direct competition for resources. In addition, Gracilaria is a favoured refuge for mesograzers, which prefer to feed on Fucus. Mesocosm-experiments were conducted over one year in the Kiel Fjord in order to test the direct and indirect effects of Gracilaria on Fucus. Fucus was incubated with Gracilaria at three different densities and grazers in high or low abundances. High densities of Gracilaria inhibited the growth of Fucus adults and also reduced the half-life-time of Fucus germlings. Associated grazers also had a negative effect on Fucus adults. Our results suggest that Gracilaria is able to influence Fucus in the Baltic Sea through direct competition for resources and by exposing it to higher grazer pressure

Published

2013

5. The Identification of Source and Vector of a Prolific Marine Invader

Author

James E. Byers, Sarah J. Shainker, Mareike Hammann, Nicole M. Kollars, Thomas W. Greig, David C. Murray, Allan E. Strand, Ryuta Terada, Erik E. Sotka, Stacy A. Krueger-Hadfield, and Florian Weinberger

Subjects

0106 biological sciences, Oyster, Gracilaria vermiculophylla, Ecology, 010604 marine biology & hydrobiology, Northern Hemisphere, Introduced species, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Phylogeography, Vector (epidemiology), biology.animal, Crassostrea, Identification (biology), 14. Life underwater

Abstract

The source and vector of an introduced species inform its ecological and evolutionary history and may guide management that seeks to prevent future introductions. Surprisingly, few studies have successfully used genetic tools to independently inform the specific source and pathway of biological invasions. The ecological history of many introduced species, including their origins and vectors, is often based on suppositions or educated guesses. Here, we used mitochondrial and microsatellite genotyping to trace the invasion of the Asian seaweed Gracilaria vermiculophylla (Rhodophyta) along the three coastlines of the Northern Hemisphere to which it has been introduced: the western coast of North America, eastern coast of the United States and the coasts of Europe and northwest Africa. Analyzing 37 native and 53 introduced sites, we identified the Pacific coastline of northeastern Japan as the ultimate source of the Northern Hemisphere invasion. Coincidentally, most exports of the oyster Crassostrea gigas historically originated from this region and both species often grow in close proximity. Based on genetic signatures, each of the three coastlines likely received thalli directly from Japan, as well as material from another introduced coastline (i.e., a secondary invasion). Our ability to document a source region, which was enabled by a robust sampling of locations and loci that previous studies lacked, reflected strong phylogeographic structure along native coastlines. We suggest Gracilaria vermiculophylla is an important representative example of many species likely exported out of Japan by the oyster trade and its genetic signatures that may be a hallmark of oyster introduction legacies.

Published

2016

6. Selection of heat-shock resistance traits during the invasion of the seaweed Gracilaria vermiculophylla

Author

Florian Weinberger, Gaoge Wang, Luis E. Aguilar-Rosas, Mareike Hammann, and Sung Min Boo

Subjects

0106 biological sciences, Ecology, Resistance (ecology), Range (biology), 010604 marine biology & hydrobiology, Aquatic Science, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Phenotype, Hsp70, Algae, Shock (circulatory), Haloperoxidase, Botany, medicine, Dormancy, medicine.symptom, Ecology, Evolution, Behavior and Systematics

Abstract

Most macroalgae and other aquatic organisms feature life cycles without a stage of dormancy and elevated stress resistance that is comparable to plant seeds. During anthropogenic transportation, they are therefore probably more exposed to stress than plant invaders, which could result in a more rigorous selection of stress-resistant phenotypes. However, selection of stress resistance during invasion processes of aquatic organisms has rarely been studied. We therefore compared the responses of native and non-native populations of the seaweed Gracilaria vermiculophylla to heat shock in common garden-type experiments. Specimens from six native populations in East Asia and from eight non-native populations in Europe and on the Mexican Pacific coast were acclimated to two sets of identical conditions before their resistance to heat shock was examined. The experiments were carried out twice—one time in the native range in Qingdao, China, and one time in the invaded range in Kiel, Germany—to rule out effects of specific local conditions. In both testing sites the non-native populations survived heat shock significantly better than the native populations. After three hours of heat shock G. vermiculophylla exhibited increased levels of heat-shock protein 70 (HSP70) and of a specific isoform of haloperoxidase, suggesting that both enzymes could be required for heat-shock stress management. However, the elevated resistance toward heat shock of non-native populations only correlated with an increased constitutive expression of heat-shock protein 70 (HSP70). The haloperoxidase isoform was more prominent in native populations, suggesting that not only increased HSP70 expression, but also reduced allocation into haloperoxidase expression after heat shock was selected during the invasion history. This selection probably happened early because the same combination of traits was detected in all realms within the non-native range.

Published

2016

7. Invasion of novel habitats uncouples haplo-diplontic life cycles

Author

Nicole M. Kollars, Thomas W. Greig, Courtney J. Murren, Erik E. Sotka, David C. Murray, Mareike Hammann, Ryuta Terada, Allan E. Strand, James E. Byers, Florian Weinberger, and Stacy A. Krueger-Hadfield

Subjects

0106 biological sciences, education.field_of_study, Biological life cycle, Pacific Ocean, Ecology, 010604 marine biology & hydrobiology, Population, Population genetics, Asexual reproduction, Biology, Haploidy, Mating system, 010603 evolutionary biology, 01 natural sciences, Biological Evolution, Diploidy, Asexuality, Genetics, Population, Genetics, Gracilaria, Colonization, Ploidy, education, Ecology, Evolution, Behavior and Systematics, Ecosystem

Abstract

Baker's Law predicts uniparental reproduction will facilitate colonization success in novel habitats. While evidence supports this prediction among colonizing plants and animals, few studies have investigated shifts in reproductive mode in haplo-diplontic species in which both prolonged haploid and diploid stages separate meiosis and fertilization in time and space. Due to this separation, asexual reproduction can yield the dominance of one of the ploidy stages in colonizing populations. We tested for shifts in ploidy and reproductive mode across native and introduced populations of the red seaweed Gracilaria vermiculophylla. Native populations in the northwest Pacific Ocean were nearly always attached by holdfasts to hard substrata and, as is characteristic of the genus, haploid–diploid ratios were slightly diploid-biased. In contrast, along North American and European coastlines, introduced populations nearly always floated atop soft-sediment mudflats and were overwhelmingly dominated by diploid thalli without holdfasts. Introduced populations exhibited population genetic signals consistent with extensive vegetative fragmentation, while native populations did not. Thus, the ecological shift from attached to unattached thalli, ostensibly necessitated by the invasion of soft-sediment habitats, correlated with shifts from sexual to asexual reproduction and slight to strong diploid bias. We extend Baker's Law by predicting other colonizing haplo-diplontic species will show similar increases in asexuality that correlate with the dominance of one ploidy stage. Labile mating systems likely facilitate colonization success and subsequent range expansion, but for haplo-diplontic species, the long-term eco-evolutionary impacts will depend on which ploidy stage is lost and the degree to which asexual reproduction is canalized.

Published

2015

8. Increased potential for wound activated production of Prostaglandin E

Author

Mareike, Hammann, Martin, Rempt, Georg, Pohnert, Gaoge, Wang, Sung Min, Boo, and Florian, Weinberger

Abstract

The capacity of the East Asian seaweed Gracilaria vermiculophylla ("Ogonori") for production of prostaglandin E

Published

2015