Your search keyword '"Metrosideros"' showing total 143 results

1. Metrosideros (Myrtaceae) in Oceania: Origin, evolution and dispersal

Author

Shane D. Wright, Len N. Gillman, Luke G. Liddell, and Donnabella C. Lacap-Bugler

Subjects

External transcribed spacer, Phylogeography, Ecology, biology, Metrosideros, Myrtaceae, Biological dispersal, Internal transcribed spacer, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Published

2021

2. Typification of names in Eriobotrya, Mespilus, Opa and Photinia (Rosaceae)

Author

Zhiyong Zhang, Mitra Lal Pathak, Muhammad Idrees, and Xin-Fen Gao

Subjects

Type (biology), biology, Synonym (taxonomy), Photinia, Metrosideros, Botany, Typification, Plant Science, Mespilus, Eriobotrya, biology.organism_classification, Eudicots, Ecology, Evolution, Behavior and Systematics

Abstract

Lectotypifications of Eriobotrya ambigua, E. bengalensis f. contracta, E. bengalensis f. multinervata, Opa metrosideros (synonym of E. metrosideros), Photinia griffithii (synonym of E. griffithii), E. prionophylla are designated here, and a neotype is designated for Mespilus bengalensis (≡ E. bengalensis). The protologues of these names and the original materials are evaluated. Nomenclatural notes discussing the selection of type specimens are given for each name and known isotypes are also cited.

Published

2021

3. Using spatial models to identify refugia and guide restoration in response to an invasive plant pathogen

Author

Sarah J. Richardson, Richard Turner, Peter J. Bellingham, Rebecca E. Campbell, Robert M. Beresford, James K. McCarthy, and Susan K. Wiser

Subjects

Geography, Ecology, biology, Syzygium, Metrosideros, biology.organism_classification, Pathogen, Invasive species

Published

2020

4. Ambrosia Beetle (Coleoptera: Curculionidae) Communities and Frass Production in ʻŌhiʻa (Myrtales: Myrtaceae) Infected With Ceratocystis (Microascales: Ceratocystidaceae) Fungi Responsible for Rapid ʻŌhiʻa Death

Author

Kelly A. Jaenecke, Kylle Roy, and Robert W. Peck

Subjects

0106 biological sciences, Myrtaceae, Metrosideros, Metrosideros polymorpha, Ambrosia beetle, Ceratocystis, 010603 evolutionary biology, 01 natural sciences, Hawaii, Botany, Animals, Ecology, Evolution, Behavior and Systematics, Ecology, biology, Frass, Myrtales, Microascales, biology.organism_classification, Coleoptera, 010602 entomology, Insect Science, Curculionidae, Weevils, Ambrosia

Abstract

Rapid ʻŌhiʻa Death (ROD) is a deadly disease that is threatening the native Hawaiian keystone tree species, ʻōhiʻa lehua (Metrosideros polymorpha Gaudich). Ambrosia beetles (Curculionidae: Scolytinae) and their frass are hypothesized to play a major role in the spread of ROD, although their ecological niches and frass production within trees and across the landscape are not well understood. We characterized the beetle communities and associated frass production from bolts (tree stem sections) representative of entire individual ʻōhiʻa trees from multiple locations across Hawaiʻi Island by rearing beetles and testing their frass for viable ROD-causing fungi. Additionally, we estimated frass production for three beetle species by weighing their frass over time. We found that Xyleborinus saxesenii (Ratzburg), Xyleborus affinis Eichhoff, Xyleborus ferrugineus (Fabricius), Xyleborus perforans (Wollaston), and Xyleborus simillimus Perkins were commonly found on ROD-infected ʻōhiʻa and each produced frass containing viable Ceratocystis propagules. The Hawaiʻi Island endemic beetle and the only native ambrosia beetle associated with ʻōhiʻa, X. simillimus, was limited to high elevations and appeared to utilize similar tree heights or niche dimensions as the invasive X. ferrugineus. Viable Ceratocystis propagules expelled in frass were found throughout entire tree bole sections as high as 13 m. Additionally, we found that X. ferrugineus produced over 4× more frass than X. simillimus. Our results indicate the ambrosia beetle community and their frass play an important role in the ROD pathosystem. This information may help with the development and implementation of management strategies to control the spread of the disease.

Published

2020

5. Resistance of New Zealand Provenance Leptospermum scoparium, Kunzea robusta, Kunzea linearis, and Metrosideros excelsa to Austropuccinia psidii

Author

David J. Lee, Angus J. Carnegie, Tracey Menzies, Alby Marsh, Grant R. Smith, Emily Koot, Geoff S. Pegg, Gary J. Houliston, Louise S. Shuey, David Chagné, Ranjith Pathirana, Julie Ryan, Beccy Ganley, Julia Soewarto, Jayanthi Nadarajan, Roanne Sutherland, and Elise A. Arnst

Subjects

0106 biological sciences, biology, Metrosideros, fungi, Myrtaceae, food and beverages, Plant Science, Plant disease resistance, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Metrosideros excelsa, Leptospermum scoparium, Lophomyrtus bullata, Botany, Ornamental plant, Kunzea, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Resistance to the pandemic strain of Austropuccinia psidii was identified in New Zealand provenance Leptospermum scoparium, Kunzea robusta, and K. linearis plants. Only 1 Metrosideros excelsa-resistant plant was found (of the 570 tested) and no resistant plants of either Lophomyrtus bullata or L. obcordata were found. Three types of resistance were identified in Leptospermum scoparium. The first two, a putative immune response and a hypersensitive response, are leaf resistance mechanisms found in other myrtaceous species while on the lateral and main stems a putative immune stem resistance was also observed. Both leaf and stem infection were found on K. robusta and K. linearis plants as well as branch tip dieback that developed on almost 50% of the plants. L. scoparium, K. robusta, and K. linearis are the first myrtaceous species where consistent infection of stems has been observed in artificial inoculation trials. This new finding and the first observation of significant branch tip dieback of plants of the two Kunzea spp. resulted in the development of two new myrtle rust disease severity assessment scales. Significant seed family and provenance effects were found in L. scoparium, K. robusta, and K. linearis: some families produced significantly more plants with leaf, stem, and (in Kunzea spp.) branch tip dieback resistance, and provenances provided different percentages of resistant families and plants. The distribution of the disease symptoms on plants from the same seed family, and between plants from different seed families, suggested that the leaf, stem, and branch tip dieback resistances were the result of independent disease resistance mechanisms.

Published

2020

6. Density separation in pollen preparation: How low can you go?

Author

Andrew P. Rees, Lisa Woods, Valerie van den Bos, and Rewi M. Newnham

Subjects

0106 biological sciences, Palynology, 010506 paleontology, Dacrydium cupressinum, biology, Range (biology), 010604 marine biology & hydrobiology, Metrosideros, Climate change, Aquatic Science, medicine.disease_cause, biology.organism_classification, 01 natural sciences, Libocedrus, Pollen, Prumnopitys taxifolia, medicine, Physical geography, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

In palynology and other laboratory-based disciplines, methodological literature often lags the development and adoption of new practices. Here we highlight the lack of literature on the application of heavy liquid density separation for pollen preparations, a technique that has become common practice in recent years. In a study of Holocene-age sediments from Lake Pupuke, northern New Zealand, we found that the density of the heavy liquid used to separate pollen from the minerogenic fraction, within the range of reported practice, affected pollen counts. When a relatively low density was used (2.0 g/cm3), buoyant pollen grains such as Prumnopitys taxifolia and Dacrydium cupressinum were overrepresented, whereas small, compact pollen grains such as Libocedrus and Metrosideros were underrepresented. This result raises wider concerns, as heavy liquid densities reported in the literature range from 1.88 to 2.40 g/cm3. We draw attention to this problem and recommend steps that palynologists can take to ensure that their enumerated pollen assemblages are representative and do not lead to spurious interpretations.

Published

2020

7. Ancestral polymorphisms shape the adaptive radiation of Metrosideros across the Hawaiian Islands

Author

Ornob Alam, Julien F. Ayroles, Scott F. Hickey, Julie Z. Peng, Xiaoguang Dai, Sissel Juul, Priyesh Rughani, Jae Young Choi, Eoghan D. Harrington, Michael D. Purugganan, and Elizabeth A. Stacy

Subjects

geography, Multidisciplinary, geography.geographical_feature_category, biology, Range (biology), Metrosideros, Metrosideros polymorpha, Incipient speciation, biology.organism_classification, Ecological speciation, Population genomics, Evolutionary biology, Adaptive radiation, Archipelago

Abstract

Some of the most spectacular adaptive radiations begin with founder populations on remote islands. How genetically limited founder populations give rise to the striking phenotypic and ecological diversity characteristic of adaptive radiations is a paradox of evolutionary biology. We conducted an evolutionary genomics analysis of genus Metrosideros, a landscape-dominant, incipient adaptive radiation of woody plants that spans a striking range of phenotypes and environments across the Hawaiian Islands. Using nanopore-sequencing, we created a chromosome-level genome assembly for Metrosideros polymorpha var. incana and analyzed whole-genome sequences of 131 individuals from 11 taxa sampled across the islands. Demographic modeling and population genomics analyses suggested that Hawaiian Metrosideros originated from a single colonization event and subsequently spread across the archipelago following the formation of new islands. The evolutionary history of Hawaiian Metrosideros shows evidence of extensive reticulation associated with significant sharing of ancestral variation between taxa and secondarily with admixture. Taking advantage of the highly contiguous genome assembly, we investigated the genomic architecture underlying the adaptive radiation and discovered that divergent selection drove the formation of differentiation outliers in paired taxa representing early stages of speciation/divergence. Analysis of the evolutionary origins of the outlier single nucleotide polymorphisms (SNPs) showed enrichment for ancestral variations under divergent selection. Our findings suggest that Hawaiian Metrosideros possesses an unexpectedly rich pool of ancestral genetic variation, and the reassortment of these variations has fueled the island adaptive radiation.

Published

2021

8. Ancestral polymorphisms shape the adaptive radiation of

Author

Jae Young, Choi, Xiaoguang, Dai, Ornob, Alam, Julie Z, Peng, Priyesh, Rughani, Scott, Hickey, Eoghan, Harrington, Sissel, Juul, Julien F, Ayroles, Michael D, Purugganan, and Elizabeth A, Stacy

Subjects

Polymorphism, Genetic, Genetic Speciation, Evolution, Myrtaceae, Metrosideros, incipient speciation, Biological Sciences, Adaptation, Physiological, Radiation Tolerance, Evolution, Molecular, Genetics, Population, Phenotype, Radiation, Ionizing, ecological speciation, adaptive radiation, speciation genomics

Abstract

Significance Some of the most spectacular adaptive radiations of plants and animals occur on remote oceanic islands, yet such radiations are preceded by founding events that severely limit genetic variation. How genetically depauperate founder populations give rise to the spectacular phenotypic and ecological diversity characteristic of island adaptive radiations is not known. We generated genomic resources for Hawaiian Metrosideros––a hyper-variable adaptive radiation of woody taxa—for insights into the paradox of remote island radiations. We posit that divergent selection and differential sorting of an unexpectedly rich pool of ancestral variation drove the diversification of lineages. Recurring use of ancient variants from a richer-than-expected gene pool may explain how lineages can diversify to fill countless niches on remote islands., Some of the most spectacular adaptive radiations begin with founder populations on remote islands. How genetically limited founder populations give rise to the striking phenotypic and ecological diversity characteristic of adaptive radiations is a paradox of evolutionary biology. We conducted an evolutionary genomics analysis of genus Metrosideros, a landscape-dominant, incipient adaptive radiation of woody plants that spans a striking range of phenotypes and environments across the Hawaiian Islands. Using nanopore-sequencing, we created a chromosome-level genome assembly for Metrosideros polymorpha var. incana and analyzed whole-genome sequences of 131 individuals from 11 taxa sampled across the islands. Demographic modeling and population genomics analyses suggested that Hawaiian Metrosideros originated from a single colonization event and subsequently spread across the archipelago following the formation of new islands. The evolutionary history of Hawaiian Metrosideros shows evidence of extensive reticulation associated with significant sharing of ancestral variation between taxa and secondarily with admixture. Taking advantage of the highly contiguous genome assembly, we investigated the genomic architecture underlying the adaptive radiation and discovered that divergent selection drove the formation of differentiation outliers in paired taxa representing early stages of speciation/divergence. Analysis of the evolutionary origins of the outlier single nucleotide polymorphisms (SNPs) showed enrichment for ancestral variations under divergent selection. Our findings suggest that Hawaiian Metrosideros possesses an unexpectedly rich pool of ancestral genetic variation, and the reassortment of these variations has fueled the island adaptive radiation.

Published

2021

9. Isolation of Metrosideros (ʻOhiʻa) Taxa on Oʻahu Increases with Elevation and Extreme Environments

Author

Heaven Tharp, Tomoko Sakishima, Neil Snow, and Elizabeth A. Stacy

Subjects

Sympatry, Genetic diversity, Reproductive Isolation, Genetic Speciation, Plant Dispersal, Ecology, Range (biology), Myrtaceae, Metrosideros, Metrosideros polymorpha, Biology, Parapatric speciation, biology.organism_classification, Hawaii, Trees, Phylogeography, Genetics, Biological dispersal, Molecular Biology, Ecosystem, Genetics (clinical), Extreme Environments, Biotechnology, Isolation by distance

Abstract

Species radiations should be facilitated by short generation times and limited dispersal among discontinuous populations. Hawaii’s hyper-diverse, landscape-dominant tree, Metrosideros, is unique among the islands’ radiations for its massive populations that occur continuously over space and time within islands, its exceptional capacity for gene flow by both pollen and seed, and its extended life span (ca. >650 years). Metrosideros shows the greatest phenotypic and microsatellite DNA diversity on Oʻahu, where taxa occur in tight sympatry or parapatry in mesic and montane wet forest on 2 volcanoes. We document the nonrandom distributions of 12 taxa (including unnamed morphotypes) along elevation gradients, measure phenotypes of ~6-year-old common-garden plants of 8 taxa to verify heritability of phenotypes, and examine genotypes of 476 wild adults at 9 microsatellite loci to compare the strengths of isolation across taxa, volcanoes, and distance. All 8 taxa retained their diagnostic phenotypes in the common garden. Populations were isolated by taxon to a range of degrees (pairwise FST between taxa: 0.004–0.267), and there was no pattern of isolation by distance or by elevation; however, significant isolation between volcanoes was observed within monotypic species, suggesting limited gene flow between volcanoes. Among the infraspecific taxa of Metrosideros polymorpha, genetic diversity and isolation significantly decreased and increased, respectively, with elevation. Overall, 5 of the 6 most isolated taxa were associated with highest elevations or otherwise extreme environments. These findings suggest a principal role for selection in the origin and maintenance of the exceptional diversity that occurs within continuous Metrosideros stands on Oʻahu.

Published

2019

10. Picking from the Past in Preparation for a Pest: Seed Banks Outperform Herbaria as Sources of Preserved ‘Ōhi‘a Seed

Author

Dustin Wolkis and Susan Deans

Subjects

Cryopreservation, Germplasm, 030219 obstetrics & reproductive medicine, biology, Agroforestry, Metrosideros, Preservation, Biological, Temperature, 0402 animal and dairy science, Medicine (miscellaneous), Germination, 04 agricultural and veterinary sciences, Cell Biology, General Medicine, biology.organism_classification, 040201 dairy & animal science, Hawaii, General Biochemistry, Genetics and Molecular Biology, Trees, 03 medical and health sciences, 0302 clinical medicine, Herbarium, Seed Bank, Seeds, PEST analysis

Abstract

Seed banks serve the purpose of maintaining germplasm for ex situ species preservation. Herbarium vouchers may be a viable source of unique and/or additional seeds for restoration as they can somet...

Published

2019

11. Divergent Selection and Primary Gene Flow Shape Incipient Speciation of a Riparian Tree on Hawaii Island

Author

Michael D. Purugganan, Elizabeth A. Stacy, and Jae Young Choi

Subjects

Gene Flow, 0106 biological sciences, Species complex, genomic islands of divergence, Genomic Islands, Genetic Speciation, Myrtaceae, Metrosideros, sympatric speciation, incipient speciation, Metrosideros polymorpha, 010603 evolutionary biology, 01 natural sciences, Hawaii, Trees, Gene flow, Ecological speciation, 03 medical and health sciences, ecological speciation, Genetics, Selection, Genetic, Molecular Biology, Discoveries, Ecology, Evolution, Behavior and Systematics, Plant Proteins, 030304 developmental biology, 0303 health sciences, Whole Genome Sequencing, biology, Disruptive selection, Ecology, 15. Life on land, Incipient speciation, biology.organism_classification, Sympatric speciation

Abstract

A long-standing goal of evolutionary biology is to understand the mechanisms underlying the formation of species. Of particular interest is whether or not speciation can occur in the presence of gene flow and without a period of physical isolation. Here, we investigated this process within Hawaiian Metrosideros, a hypervariable and highly dispersible woody species complex that dominates the Hawaiian Islands in continuous stands. Specifically, we investigated the origin of Metrosideros polymorpha var. newellii (newellii), a riparian ecotype endemic to Hawaii Island that is purportedly derived from the archipelago-wide M. polymorpha var. glaberrima (glaberrima). Disruptive selection across a sharp forest-riparian ecotone contributes to the isolation of these varieties and is a likely driver of newellii’s origin. We examined genome-wide variation of 42 trees from Hawaii Island and older islands. Results revealed a split between glaberrima and newellii within the past 0.3–1.2 My. Admixture was extensive between lineages within Hawaii Island and between islands, but introgression from populations on older islands (i.e., secondary gene flow) did not appear to contribute to the emergence of newellii. In contrast, recurrent gene flow (i.e., primary gene flow) between glaberrima and newellii contributed to the formation of genomic islands of elevated absolute and relative divergence. These regions were enriched for genes with regulatory functions as well as for signals of positive selection, especially in newellii, consistent with divergent selection underlying their formation. In sum, our results support riparian newellii as a rare case of incipient ecological speciation with primary gene flow in trees.

Published

2019

12. Phylogeography of the highly dispersible landscape‐dominant woody species complex,Metrosideros, in Hawaii

Author

Tomoko Sakishima and Elizabeth A. Stacy

Subjects

Phylogeography, Species complex, Ecology, Metrosideros, Genetic structure, Microsatellite, Biology, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Isolation by distance

Published

2019

13. Influence of Light and Substrate Conditions on Regeneration of Native Tree Saplings in the Hawaiian Lowland Wet Forest1

Author

Holger Kreft, Amanda Uowolo, Susan Cordell, Nicole DiManno, Susanne Kandert, and Rebecca Ostertag

Subjects

0106 biological sciences, Multidisciplinary, biology, Ecology, 010604 marine biology & hydrobiology, Pipturus, Metrosideros, Endangered species, Metrosideros polymorpha, Microsite, 15. Life on land, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Forest restoration, Psychotria, Restoration ecology

Abstract

Understanding microsite preferences of species at the sapling stage is crucial for successful forest restoration, as efforts can be concentrated onto the most promising sites, and invaded sites can be manipulated toward more suitable conditions for target species. The Hawaiian Lowland Wet Forest is a highly endemic and endangered ecosystem that has received limited attention in terms of research on recruitment dynamics. Our study combined density records and sapling-based measurements within a forest reserve, an invaded forest, a traditional restoration project and a novel restoration project. We recorded substrate type, soil depth, surface roughness, and light availability for 382 saplings of the four native tree species Metrosideros polymorpha, Myrsine lessertiana, Pipturus albidus, and Psychotria hawaiiensis, and 146 spots where the target species were absent. The invaded forest had the lowest native sapling density, lower light availability, and lower surface roughness than the remaining management units. The novel restoration project had more moss/nurselog sites and higher light availability than the remaining management units. The traditional restoration project was mainly characterized by rocky substrate. Metrosideros and Pipturus showed significantly higher light demand than Myrsine and Psychotria. Pipturus was associated with rough microsites and Metrosideros with moss/nurselog substrates. Our findings suggest that restoration strategies considering manipulation of the canopy light environment and microsite preferences of target species can better facilitate native recruitment into heavily invaded forests.

Published

2021

14. Screening of Metrosideros polymorpha (‘ōhi‘a) varieties for resistance to Ceratocystis lukuohia

Author

Blaine Luiz, Elizabeth A. Stacy, and Lisa M. Keith

Subjects

Ecology, biology, Resistance (ecology), Metrosideros, Botany, Forestry, Metrosideros polymorpha, biology.organism_classification, Ceratocystis

Published

2020

15. Selection on old variants drives adaptive radiation ofMetrosiderosacross the Hawaiian Islands

Author

Priyesh Rughani, Elizabeth A. Stacy, Julie Z. Peng, Sissel Juul, Scott E. Hickey, Xiaoguang Dai, Jae Young Choi, Eoghan D. Harrington, Michael D. Purugganan, and Julien F. Ayroles

Subjects

Ecological niche, geography, geography.geographical_feature_category, biology, Evolutionary biology, Range (biology), Adaptive radiation, Metrosideros, Archipelago, Reproductive isolation, Balancing selection, biology.organism_classification, Local adaptation

Abstract

Some of the most spectacular adaptive radiations begin with founder populations on remote islands. How genetically limited founder populations give rise to the striking phenotypic and ecological diversity characteristic of adaptive radiations is a paradox of evolutionary biology. We conducted an evolutionary genomic analysis of genusMetrosideros, a landscape-dominant, incipient adaptive radiation of woody plants that spans a striking range of phenotypes and environments across the Hawaiian Islands. Using nanopore-sequencing, we created a chromosome-level genome assembly forM. polymorphavar.incanaand analyzed wholegenome sequences of 131 individuals from 11 taxa sampled across the islands. We found evidence of population structure that grouped taxa by island. Demographic modeling showed concordance between the divergence times of island-specific lineages and the geological formation of individual islands. Gene flow was also detected within and between island taxa, suggesting a complex reticulated evolutionary history. We investigated genomic regions with increased differentiation as these regions may harbor variants involved in local adaptation or reproductive isolation, thus forming the genomic basis of adaptive radiation. We discovered differentiation outliers have arisen from balancing selection on ancient divergent haplotypes that formed before the initial colonization of the archipelago. These regions experienced recurrent divergent selection as lineages colonized and diversified on new islands, and hybridization likely facilitated the transfer of these ancient variants between taxa. Balancing selection on multiple ancient haplotypes–or time-tested variants–may help to explain how lineages with limited gene pools can rapidly diversify to fill myriad ecological niches on remote islands.Significance statementSome of the most spectacular adaptive radiations of plants and animals occur on remote oceanic islands, yet such radiations are preceded by founding events that severely limit genetic variation. How genetically depauperate founder populations give rise to the spectacular phenotypic and ecological diversity characteristic of island adaptive radiations is not known. We generated novel genomic resources for HawaiianMetrosideros––a hyper-variable incipient adaptive radiation of woody taxa—for insights into the paradox of remote island radiations. We found thatMetrosideroscolonized each island shortly after formation and diversified within islands through recurrent selection on ancient variations that predate the radiation. Recurring use of ancient variants may explain how genetically depauperate lineages can diversify to fill countless niches on remote islands.

Published

2020

16. Sympatric speciation in Mountain Roses (Metrosideros) on an oceanic island

Author

Owen G. Osborne, Vincent Savolainen, Tom Brewer, Mariya P. Dobreva, Ian Hutton, Tane Kafle, Natural Environment Research Council (NERC), and The Leverhulme Trust

Subjects

education.field_of_study, Evolutionary Biology, biology, Range (biology), Ecology, media_common.quotation_subject, Metrosideros, Population, fungi, food and beverages, Reproductive isolation, 06 Biological Sciences, biology.organism_classification, General Biochemistry, Genetics and Molecular Biology, Ecological speciation, Speciation, Sympatric speciation, Metrosideros nervulosa, General Agricultural and Biological Sciences, education, 11 Medical and Health Sciences, media_common

Abstract

Shifts in flowering time have the potential to act as strong prezygotic reproductive barriers in plants. We investigate the role of flowering time divergence in two species of mountain rose (Metrosideros) endemic to Lord Howe Island, Australia, a minute and isolated island in the Tasman Sea.Metrosideros nervulosaandM. sclerocarpaare sister species and have divergent ecological niches on the island but grow sympatrically for much of their range, and likely speciatedin situon the island. We used flowering time and population genomic analyses of population structure and selection, to investigate their evolution, with a particular focus on the role of flowering time in their speciation. Population structure analyses showed the species are highly differentiated and appear to be in the very late stages of speciation. We found flowering times of the species to be significantly displaced, withM. sclerocarpaflowering 53 days later thanM. nervulosa. Furthermore, the analyses of selection showed that flowering time genes are under selection between the species. Thus, prezygotic reproductive isolation is mediated by flowering time shifts in the species, and likely evolved under selection, to drive the completion of speciation within a small geographical area.This article is part of the theme issue ‘Towards the completion of speciation: the evolution of reproductive isolation beyond the first barriers’.

Published

2020

17. Examination of host-taxon, environment, and distance effects on leaf fungal endophytes in the dominant woody genus, Metrosideros, on Oʻahu

Author

Geoffrey Zahn, Gary L. Sur, and Elizabeth A. Stacy

Subjects

Ecology, biology, Host (biology), Ecological Modeling, Metrosideros, Myrtaceae, Plant Science, biology.organism_classification, Taxon, Genus, Biological dispersal, Species richness, Ecology, Evolution, Behavior and Systematics, Isolation by distance

Abstract

Fungal endophyte (FE) communities can be shaped by environmental conditions and/or host-plant affinities. Hawaiʻi's landscape-dominant woody genus Metrosideros (Myrtaceae) comprises several vegetatively distinct taxa that are non-randomly distributed across environments, and their FE communities are poorly known. We examined the relative importance of Metrosideros taxon and environment (elevation) on FE communities on Oʻahu. ITS1 rDNA barcoding and sequencing of 113 trees detected a richness of 1,637 FEs representing 5 phyla, 223 genera, and 200 species. Variation in FE diversity was significantly explained by host taxon and site with considerable overlap in FE communities among taxa. FE communities did not vary between pubescent and glabrous taxa or across elevations, possibly due to the relatively narrow range of environmental conditions represented on Oʻahu relative to taller islands. A significant pattern of isolation by distance in FE composition was detected both among and within sites, consistent with restricted dispersal of FEs across the island.

Published

2021

18. Hawai‘i forest review: Synthesizing the ecology, evolution, and conservation of a model system

Author

Gordon M. Bennett, Creighton M. Litton, Andrea C. Westerband, Donald R. Drake, Tiffany M. Knight, Lucas B. Fortini, Rebecca Ostertag, Kawika B. Winter, Kapua Kawelo, Paul D. Krushelnycky, Kealoha Feliciano, Kasey E. Barton, Susan Cordell, and Elizabeth A. Stacy

Subjects

Species complex, biology, Ecology, Metrosideros, Rare species, Threatened species, Biome, Biological dispersal, Dominance (ecology), Plant Science, Species richness, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Abstract

As the most remote archipelago in the world, the Hawaiian Islands are home to a highly endemic and disharmonic biota that has fascinated biologists for centuries. Forests are the dominant terrestrial biome in Hawai‘i, spanning complex, heterogeneous climates across substrates that vary tremendously in age, soil structure, and nutrient availability. Species richness is low in Hawaiian forests compared to other tropical forests, as a consequence of dispersal limitation from continents and adaptive radiations in only some lineages, and forests are dominated by the widespread Metrosideros species complex. Low species richness provides a relatively tractable model system for studies of community assembly, local adaptation, and species interactions. Moreover, Hawaiian forests provide insights into predicted patterns of evolution on islands, revealing that while some evidence supports “island syndromes,” there are exceptions to them all. For example, Hawaiian plants are not as a whole less defended against herbivores, less dispersible, more conservative in resource use, or more slow-growing than their continental relatives. Clearly, more work is needed to understand the drivers, sources, and constraints on phenotypic variation among Hawaiian species, including both widespread and rare species, and to understand the role of this variation for ecological and evolutionary processes, which will further contribute to conservation of this unique biota. Today, Hawaiian forests are among the most threatened globally. Resource management failures – the proliferation of non-native species in particular – have led to devastating declines in native taxa and resulted in dominance by novel species assemblages. Conservation and restoration of Hawaiian forests now rely on managing threats including climate change, ongoing species introductions, novel pathogens, lost mutualists, and altered ecosystem dynamics through the use of diverse tools and strategies grounded in basic ecological, evolutionary, and biocultural principles. The future of Hawaiian forests thus depends on the synthesis of ecological and evolutionary research, which will continue to inform future conservation and restoration practices.

Published

2021

19. Two fossil species of Metrosideros (Myrtaceae) from the Oligo‐Miocene Golden Fleece locality in Tasmania, Australia

Author

Myall Tarran, Robert S. Hill, Peter G. Wilson, Michael Macphail, and Gregory J. Jordan

Subjects

0106 biological sciences, Palynology, Ecology, Metrosideros, Macrofossil, Plant Science, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Herbarium, Genus, Paleobotany, Botany, Genetics, Taxonomy (biology), Cenozoic, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

Premise of the Study: The capsular-fruited genus Metrosideros (Myrtaceae) is one of the most widely distributed flowering plant genera in the Pacific but is extinct in Australia today. The center of geographic origin for the genus and the reason for and timing of its extinction in Australia remain uncertain. We identify fossil Metrosideros fruits from the newly discovered Golden Fleece fossil flora in the Oligo-Miocene of Tasmania, Australia, shedding further light on these problems. Methods: Standard paleopalynological techniques were used to date the fossil-bearing sediments. Scanning electron microscopy and an auto-montage camera system were used to take high-resolution images of fossil and extant fruits taken from herbarium specimens. Fossils are identified using a nearestliving-relative approach. Key Results: The fossil-bearing sediments are palynostratigraphically dated as being Proteacidites tuberculatus Zone Equivalent (ca. 33-16 Ma) in age and provide a confident Oligo Miocene age for the macrofossils. Two new fossil species of Metrosideros are described and are here named Metrosideros dawsonii sp. nov. and Metrosideros wrightii sp. nov. Conclusions: These newly described fossil species of Metrosideros provide a second record of the genus in the Cenozoic of Australia, placing them in the late Early Oligocene to late Early Miocene. It is now apparent not only that Metrosideros was present in Australia, where the genus is now extinct, but that at least several Metrosideros species were present during the Cenozoic. These fossils further strengthen the case for an Australian origin of the genus.

Published

2017

20. Ethnobotany of Hawaiian figure sculpture

Author

Caroline R. Cartwright and Paula J. Rudall

Subjects

Archeology, Flora, geography.geographical_feature_category, Sculpture, biology, Metrosideros, Metrosideros polymorpha, Cordia, biology.organism_classification, Archaeology, Geography, Genus, Anthropology, Ethnobotany, Archipelago

Abstract

Anecdotal theories about traditional uses of Polynesian woods in relation to social and religious practices were tested using comparative wood identification. The woods used to make 135 figure carvings from the Hawaiian archipelago were identified and compared with 23 figure carvings from elsewhere in Polynesia (especially Tahiti and the Marquesas). Prior to this study, the majority of Hawaiian images were believed to have been made from wood ofMetrosideros polymorpha, the commonest forest tree on the archipelago. The results confirm thatMetrosideroswas relatively popular in Hawaii (13% of Hawaiian carvings, compared with 4% in central and south-eastern Polynesia). However, more unexpectedly, over 18 different genera were utilized for figure carvings in Hawaii. The genusCordiaaccounted for 20% of Hawaiian figure carvings identified here, compared with 26% elsewhere in Polynesia, andThespesiafor 4%, compared with 30% in Marquesas. Use of some woods, such as species ofAcacia, was not previously recorded for this purpose, including the first record ofArtocarpuswood for large Hawaiian temple images. Many species—especially those that were less popular for ritual figure carving—were also used for various other purposes, including food, canoe building and medicines. This study demonstrates that the early Polynesian settlers brought with them traditions of using certain trees, but also took advantage of elements of the extensive indigenous flora.

Published

2019

21. Divergent selection and primary gene flow shape incipient speciation of a riparian tree on Hawaii Island

Author

Choi, Jae Young, Purugganan, Michael, and Stacy, Elizabeth A.

Subjects

0106 biological sciences, 0303 health sciences, Species complex, biology, Disruptive selection, Ecotype, Ecology, Metrosideros, Metrosideros polymorpha, 15. Life on land, Incipient speciation, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Gene flow, Ecological speciation, 03 medical and health sciences, 030304 developmental biology

Abstract

A long-standing goal of evolutionary biology is to understand the mechanisms underlying the formation of species. Of particular interest is whether or not speciation can occur in the presence of gene flow and without a period of physical isolation. Here, we investigated this process within HawaiianMetrosideros, a hyper-variable and highly dispersible woody species complex that dominates the Hawaiian Islands in continuous stands. Specifically, we investigated the origin ofMetrosideros polymorphavar.newellii(newellii), a riparian ecotype endemic to Hawaii Island that is purportedly derived from the archipelago-wideM. polymorphavar.glaberrima(glaberrima). Disruptive selection across a sharp forest-riparian ecotone contributes to the isolation of these varieties and is a likely driver of newellii’s origin. We examined genome-wide variation of 42 trees from Hawaii Island and older islands. Results revealed a split between glaberrima and newellii within the past 0.3-1.2 million years. Admixture was extensive between lineages within Hawaii Island and between islands, but introgression from populations on older islands (i.e.secondary gene flow) did not appear to contribute to the emergence of newellii. In contrast, recurrent gene flow (i.e.primary gene flow) between glaberrima and newellii contributed to the formation of genomic islands of elevated absolute and relative divergence. These regions were enriched for genes with regulatory functions as well as for signals of positive selection, especially in newellii, consistent with divergent selection underlying their formation. In sum, our results support riparian newellii as a rare case of incipient ecological speciation with primary gene flow in trees.Author summaryA long-standing question in evolution is whether or not new species can arise in the presence of gene flow, which is expected to inhibit the formation of reproductive isolating barriers. We investigated the genomics underlying the origin of a Hawaii Island-endemic riparian tree and purported case of incipient sympatric speciation due to disruptive selection across a sharp forest-riparian ecotone. We find extensive evidence of ongoing gene flow between the riparian tree and its closest relative along with local genomic regions resistant to admixture that likely formed through selection on genes for ecological adaptation and/or reproductive isolation. These results strongly suggest that where disruptive selection is strong, incipient speciation with gene flow is possible even in long-lived, highly dispersible trees.

Published

2019

22. Genome sequencing of Metrosideros polymorpha (Myrtaceae), a dominant species in various habitats in the Hawaiian Islands with remarkable phenotypic variations

Author

Tomoaki Nishiyama, Ayako Izuno, Yuji Isagi, Kentaro Shimizu, Masaomi Hatakeyama, Ryuta Sasaki, Ichiro Tamaki, Rie Shimizu-Inatsugi, University of Zurich, and Izuno, Ayako

Subjects

0301 basic medicine, Myrtaceae, Metrosideros, Sequence assembly, 10071 Functional Genomics Center Zurich, Plant Science, Metrosideros polymorpha, Genome, Hawaii, DNA sequencing, UFSP13-7 Evolution in Action: From Genomes to Ecosystems, 10127 Institute of Evolutionary Biology and Environmental Studies, 03 medical and health sciences, Genome Size, Species Specificity, Effective population size, Adaptive radiation, 1110 Plant Science, Ecosystem, Islands, Comparative genomics, biology, Ecology, Genome Hawaii Heterozygosity Metrosideros PSMC Wild plants, Sequence Analysis, DNA, 15. Life on land, Flow Cytometry, biology.organism_classification, Phenotype, 030104 developmental biology, Evolutionary biology, 570 Life sciences, 590 Animals (Zoology), Genome, Plant

Abstract

Whole genome sequences, which can be provided even for non-model organisms owing to high-throughput sequencers, are valuable in enhancing the understanding of adaptive evolution. Metrosideros polymorpha, a tree species endemic to the Hawaiian Islands, occupies a wide range of ecological habitats and shows remarkable polymorphism in phenotypes among/within populations. The biological functions of genetic variations observed within this species could provide significant insights into the adaptive radiation found in a single species. Here de novo assembled genome sequences of M. polymorpha are presented to reveal basic genomic parameters about this species and to develop our knowledge of ecological divergences. The assembly yielded 304-Mbp genome sequences, half of which were covered by 19 scaffolds with >5 Mbp, and contained 30 K protein-coding genes. Demographic history inferred from the genome-wide heterozygosity indicated that this species experienced a dramatic rise and fall in the effective population size, possibly owing to past geographic or climatic changes in the Hawaiian Islands. This M. polymorpha genome assembly represents a high-quality genome resource useful for future functional analyses of both intra- and interspecies genetic variations or comparative genomics.

Published

2016

23. An Expanded Metrosideros (Myrtaceae) to Include Carpolepis and Tepualia Based on Nuclear Genes

Author

Scott M. Geib, Eve Lucas, Yohan Pillon, Tomoko Sakishima, Jennifer B. Johansen, Elizabeth A. Stacy, and Brian Hall

Subjects

Nuclear gene, Mearnsia, Ecology, Metrosideros, Plant Science, Biology, biology.organism_classification, Tribe (biology), Coalescent theory, Phylogenetics, Evolutionary biology, Genus, Genetics, Subgenus, Ecology, Evolution, Behavior and Systematics

Abstract

The genus Metrosideros (Myrtaceae) comprises 50–60 species found largely across the Pacific Islands. The relationships within this genus, including the circumscriptions of the subgenera Mearnsia and Metrosideros and their relationships with the other members of the tribe Metrosidereae (namely the New Caledonian endemic genus Carpolepis and the South American Tepualia), are poorly understood. Phylogenetic analyses were carried out using previously published ITS sequences, covering most species of the tribe, and new sequences of five single-copy nuclear genes with a reduced taxon sampling. The independent and combined analyses of the five nuclear genes using a range of approaches, including Bayesian single-gene, concatenated (MrBayes), concordance (BUCKy) and coalescent (*BEAST) analyses, yielded different topologies, indicating important conflicts among phylogenies based on individual genes. The deep relationships within the tribe Metrosidereae remain poorly resolved, but our results indicate that...

Published

2015

24. Metrosideros lophantha Vent., Descr. Pl. Nouv

Author

Callmander, Martin W., Durbin, Olivier D., Lack, Hans-Walter, Bungener, Patrick, Martin, Pascal, and Gautier, Laurent

Subjects

Tracheophyta, Magnoliopsida, Myrtaceae, Myrtales, Metrosideros, Biodiversity, Metrosideros lophantha, Plantae, Taxonomy

Abstract

45. Metrosideros lophantha Vent., Descr. Pl. Nouv.: tab. 69. 1802. Lectotypus (designated here): [AUSTRALIA]: Hort. Cels, Ventenat s.n. (G [G00341539]!; isolecto-: G [G00341540, G00341541]!). = Callistemon salignus (Sm.) Colv. ex Sweet Notes. ��� Three specimens of a single gathering have been located in Ventenat���s herbarium at G. They represent the plant cultivated in Cels���s garden. The more complete collection is designated here as the lectotype., Published as part of Callmander, Martin W., Durbin, Olivier D., Lack, Hans-Walter, Bungener, Patrick, Martin, Pascal & Gautier, Laurent, 2017, Etienne-Pierre Ventenat (1757 - 1808) and the gardens of Cels and Empress Jos��phine, pp. 87-132 in Candollea 72 (1) on page 108, DOI: 10.15553/c2017v721a8, http://zenodo.org/record/5721919

Published

2017

25. Pollen core assemblages as indicator of Polynesian and European impact on the vegetation cover of Auckland Isthmus catchment, New Zealand

Author

Mark Horrocks, Robin J. Parker, and Ghada M.S. Abrahim

Subjects

Palynology, biology, Pteridium esculentum, Ecology, Metrosideros, Vegetation, Aquatic Science, Oceanography, biology.organism_classification, Pollen core, medicine.disease_cause, Dacrydium, Geography, Pollen, medicine, Tephra

Abstract

Tamaki Estuary is an arm of the Hauraki Gulf situated on the eastern side of central Auckland. Over the last 100 years, Tamaki catchment has evolved from a nearly rural landscape to an urbanised and industrialised area. Pollen, 14C and glass shards analyses, were carried out on three cores collected along the estuary with the aim to reconstruct the estuary's history over the last ∼8000 years and trace natural and anthropogenic effects recorded in the sediments. Glass shard analysis was used to establish key tephra time markers such as the peralkaline eruption of Mayor Island, ∼6000 years BP. During the pre-Polynesian period (since at least 8000 years BP), regional vegetation was podocarp/hardwood forest dominated by Dacrydium cupressinun, Prumnopits taxifolia, and Metrosideros. Major Polynesian settler impact (commencing ∼700 yr BP) was associated with forest clearance as indicated by a sharp decline in forest pollen types. This coincided with an increase in bracken (Pteridium esculentum) spores and grass pollen. Continuing landscape disturbance during European settlement (commencing after 1840 AD) was accompanied by the distinctive appearance of exotic pollen taxa such as Pinus.

Published

2013

26. The effect of salinity and high boron on growth, photosynthetic activity and mineral contents of two ornamental shrubs

Author

Sebastián Bañón, J. Miralles, M. J. Sánchez-Blanco, and J. Ochoa

Subjects

0106 biological sciences, 0301 basic medicine, Irrigation, biology, Metrosideros, Horticulture, biology.organism_classification, Photosynthesis, 01 natural sciences, Salinity, Metrosideros excelsa, 03 medical and health sciences, 030104 developmental biology, Botany, Ornamental plant, Viburnum tinus, Chlorophyll fluorescence, 010606 plant biology & botany

Abstract

Simultaneous salinity and boron (B) excess often occur due to irrigation with water containing high levels of salts, including B. The effects of excess of NaCl and B in the nutrient solution on some agronomical and physiological parameters of Viburnum tinus (laurustinus) and Metrosideros excelsa (metrosideros) were studied. Potted plants were grown in a factorial combination of B (1 and 6 mg/l) and NaCl (2 and 6 dS/m). B toxicity (6 mg/l) caused tip/edge burn in the lower leaves of laurustinus, while these symptoms were absent in metrosideros. Toxicity by B reduced dry biomass in the two species, particularly the aerial part in metrosideros and the roots in laurustinus. Metrosideros accumulated a similar content of B in all leaves, while the laurustinus tended to accumulate more B in the lower leaves. The leaf B content in laurustinus was reduced by salinity to a greater extent than in metrosideros; however, this was not sufficient to prevent injuries to the laurustinus photosynthetic system.

Published

2012

27. Earthstars (Geastrum, Myriostoma) of the Hawaiian Islands Including Two New Species, Geastrum litchiforme and Geastrum reticulatum(

Author

Dennis E. Desjardin and Don E. Hemmes

Subjects

Multidisciplinary, biology, Myriostoma, Geastrum minimum, Myoporum, Ecology, Metrosideros, Botany, Gasteroid fungi, Geastrum triplex, biology.organism_classification, Geastrum, Geastrum velutinum

Abstract

An updated, annotated list of earthstars found in the Hawaiian Islands is presented that includes 19 species of Geastrum and Myriostoma coliforme. Favored habitats for these gasteroid fungi include periodically wet windward coastal Casuarina groves, windward Leucaena thickets, and leeward coastal Prosopis groves. In contrast to these nonnative vegetation zones, earthstars such as Geastrum minimum, G. campestre, and G. corollinum are found also in largely native leeward montane Sophora/Myoporum forests, whereas Geastrum velutinum and G. reticulatum appear in montane native Acacia koa/Metrosideros forests. Eighty-two percent of the collections were made between September and February, although Geastrum triplex may be found earlier during the summer months. Two species, Geastrum litchiforme Desjardin & Hemmes and Geastrum reticulatum Desjardin & Hemmes, are described as new, accompanied by illustrations and comparisons with allied taxa. Geastrum xerophilum, originally published without Latin diagnosis, is formally validated. Specific collections are documented and island distribution and preferred habitats of the various species are listed. An artificial dichotomous key to aid in identification is provided.

Published

2011

28. Risk posed by the invasive defoliator Uraba lugens to New Zealand native flora

Author

K. J. B. Potter, Toni M. Withers, L. A. Berndt, Shaun A. Forgie, Darren J. Kriticos, and Quentin Paynter

Subjects

biology, Ecology, Metrosideros, fungi, Biological pest control, food and beverages, Forestry, Native plant, biology.organism_classification, Invasive species, Metrosideros excelsa, Insect Science, Uraba lugens, PEST analysis, Weed, Agronomy and Crop Science

Abstract

The risk posed to New Zealand native flora by the recently-established pest of Australian origin Uraba lugens Walker (Lepidoptera: Nolidae) (gum leaf skeletonizer) was assessed. Weed biological control host range testing methods were applied to identify those New Zealand plant species potentially at risk. Native plants tested were primarily in the Myrtaceae, the family that contains all the Australian hosts of U. lugens. 2 Experimental methods included no-choice larval feeding assays and field cage and laboratory oviposition trials. Difficulty in ascertaining reliable oviposition preference data from cage oviposition trials limited the confidence with which the invader's field host range could be predicted. 3 Field surveys of plants attacked by U. lugens in the infested area supported the initial predictions but only some of the at-risk native Myrtaceae were present in the area. 4 The risk to native New Zealand plants is presented in terms of two mechanisms: development of self-sustaining populations and temporary spill-over of solitary larvae. Development of self-sustaining populations of the pest within native forests is deemed to be highly improbable. 5 Temporary spill-over impacts are most likely in urban areas within mixed species plantings or boundaries between native/exotic forests and coinciding with the mobile larval life stages. Spill-over impacts from U. lugens have only been recorded to date on Metrosideros excelsa.

Published

2010

29. A new species of Metrosideros (Myrtaceae) from Vanuatu and notes on the genus

Author

Yohan Pillon and Institut de Recherche pour le Développement (IRD)

Subjects

ESPECE NOUVELLE, 0106 biological sciences, 0301 basic medicine, pacifique, taxonomie, Metrosideros, Tropical trees, Plant Science, Biology, TAXONOMIE, GENRE, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, ARBRE, [SDV.BV]Life Sciences [q-bio]/Vegetal Biology, IUCN Red List, Eudicots, Ecology, Evolution, Behavior and Systematics, arbre tropical, Vegetal Biology, Ecology, Myrtaceae, MILIEU INSULAIRE, biology.organism_classification, MODELISATION, 030104 developmental biology, Habitat, Taxonomy (biology), Biologie végétale

Abstract

Metrosideros Banks ex Gaertner (1788: 170, Myrtaceae) is one of the most widespread tree genus across the Pacific islands and is an emerging model for the study of speciation in tropical trees (Papadopulos et al. 2011; Stacy et al. 2014). The material housed at the Muséum National d’Histoire Naturelle in Paris (P) was recently reviewed in order to prepare the evaluation of the New Caledonian species for the IUCN redlist (IUCN 2017) and apply some recent taxonomic changes in the genus (Pillon et al. 2015). A new species from Vanuatu came to light and is described below.

Published

2018

30. Dispersal and habitat fidelity of bog and forest growth forms of Hawaiian Metrosideros (Myrtaceae)

Author

Margaret E. Wright and Tom A. Ranker

Subjects

Genetic diversity, Habitat, Ecology, Range (biology), Metrosideros, Genetic variation, Biological dispersal, Plant Science, Metrosideros polymorpha, Ecotone, Biology, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Abstract

The Hawaiian endemic Metrosideros polymorpha is known for its high levels of morphological diversity and localized adaptation to a range of habitats. At the ecotone between bogs and forests, individuals exhibiting morphological extremes can be found within a few metres of each other. The objective of this study was to examine the genetic diversity and structure of morphologically distinct neighbouring populations of M. polymorpha, growing in bogs and adjacent forests across multiple islands. We explored these relationships using the molecular technique of inter-simple sequence repeats (ISSRs). The majority (90.79%) of genetic variation was found within populations, 8.53% of the differentiation among populations can be attributed to differences between microhabitat types within islands and very little of the genetic differentiation is explained by the differences among islands (0.68%). These high levels of genetic homogeneity across populations could be the result of extensive gene flow and/or recent isolation of populations. We introduce a nearest genetic neighbour (NGN) analysis to examine detailed relationships of dispersal within and among populations by habitat and island. Using this approach, we provide evidence for habitat fidelity within bog populations and a positive correlation between island age and the proportion of same-island NGNs. © 2010 The Linnean Society of London, Botanical Journal of the Linnean Society, 2010, 162, 558–571.

Published

2010

31. An Approach for High-Resolution Mapping of Hawaiian Metrosideros Forest Mortality Using Laser-Guided Imaging Spectroscopy

Author

R. Flint Hughes, Gregory P. Asner, Philip G. Brodrick, Roberta E. Martin, David E. Knapp, Nicholas R. Vaughn, and Joseph Heckler

Subjects

010504 meteorology & atmospheric sciences, Science, Metrosideros, 0211 other engineering and technologies, biological invasion, Carnegie Airborne Observatory, forest pathogens, Hawaii Island, Rapid ‘Ōhi‘a Death, High resolution, High density, 02 engineering and technology, Metrosideros polymorpha, 01 natural sciences, Peninsula, Ecosystem, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, geography.geographical_feature_category, biology, Crown (botany), biology.organism_classification, Geography, General Earth and Planetary Sciences, Physical geography, Limited resources

Abstract

Rapid ‘Ōhi‘a Death (ROD) is a disease aggressively killing large numbers of Metrosideros polymorpha (‘ōhi‘a), a native keystone tree species on Hawaii Island. This loss threatens to deeply alter the biological make-up of this unique island ecosystem. Spatially explicit information about the present and past advancement of the disease is essential for its containment; yet, currently such data are severely lacking. To this end, we used the Carnegie Airborne Observatory to collect Laser-Guided Imaging Spectroscopy data and high-resolution digital imagery across >500,000 ha of Hawaii Island in June–July 2017. We then developed a method to map individual tree crowns matching the symptoms of both active (brown; desiccated ‘ōhi‘a crowns) and past (leafless tree crowns) ROD infection using an ensemble of two distinct machine learning approaches. Employing a very conservative classification scheme for minimizing false-positives, model sensitivity rates were 86.9 and 82.5, and precision rates were 97.4 and 95.3 for browning and leafless crowns, respectively. Across the island of Hawaii, we found 43,134 individual crowns suspected of exhibiting the active (browning) stage of ROD infection. Hotspots of potential ROD infection are apparent in the maps. The peninsula on the eastern side of Hawaii known as the Puna district, where the ROD outbreak likely originated, contained a particularly high density of brown crown detections. In comparison, leafless crown detections were much more numerous (547,666 detected leafless crowns in total) and more dispersed across the island. Mapped hotspots of likely ROD incidence across the island will enable scientists, administrators, and land managers to better understand both where and how ROD spreads and how to apply limited resources to limiting this spread.

Published

2018

32. Evaluating barriers to native seedling establishment in an invaded Hawaiian lowland wet forest

Author

Lucero Vasquez-Radonic, Jodie R. Schulten, Linda Sweinhart, Barbara Rowe, Jene Michaud, Susan Cordell, Rebecca Ostertag, and T. Colleen Cole

Subjects

Biomass (ecology), Ecology, Metrosideros, food and beverages, Introduced species, Understory, Biology, biology.organism_classification, Invasive species, Germination, Seedling, Forest ecology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Many tropical island forest ecosystems are dominated by non-native plant species and lack native species regeneration in the understorey. Comparison of replicated control and removal plots offers an opportunity to examine not only invasive species impacts but also the restoration potential of native species. In lowland Hawaiian wet forests little is known about native species seed dynamics, recruitment requirements, or the effects of management. In a heavily invaded lowland wet forest, we examined the relationship between seed presence and seedling establishment in control and removal plots. Non-native species were competitively superior because they had higher germination percentages and dominated the seed bank; only seven out of 33,375 seedlings were native. In contrast, the seed rain contained native seed, but native seedling recruitment was almost exclusively limited to removal plots, suggesting that optimum establishment conditions are not met in the presence of a dense mid-storey of non-native species. Non-native species dominance was altered and biomass significantly decreased over time resulting in a reduced weeding effort (12.38–0.77 g day 1 ). We suggest that with opening of the canopy through non-native species removal and subsequent weeding, it may be possible to reduce the seed bank enough to skew the regeneration potential towards native species. Our results suggest that germination success and lack of a seed bank are the main bottlenecks for native species. We conclude that without invasive species control, future regeneration of Hawaiian lowland wet forests is likely to be almost entirely

Published

2009

33. Response of native Hawaiian woody species to lava-ignited wildfires in tropical forests and shrublands

Author

J. Boone Kauffman and Alison Ainsworth

Subjects

geography, geography.geographical_feature_category, Ecology, biology, ved/biology, Metrosideros, ved/biology.organism_classification_rank.species, Plant community, Plant Science, Metrosideros polymorpha, Ecological succession, biology.organism_classification, Shrub, Invasive species, Shrubland, Disturbance (ecology)

Abstract

Wildfires are rare in the disturbance history of Hawaiian forests but may increase in prevalence due to invasive species and global climate change. We documented survival rates and adaptations facilitating persistence of native woody species following 2002–2003 wildfires in Hawaii Volcanoes National Park, Hawaii. Fires occurred during an El Nino drought and were ignited by lava flows. They burned across an environmental gradient occupied by two drier shrub-dominated communities and three mesic/wet Metrosideros forest communities. All the 19 native tree, shrub, and tree fern species demonstrated some capacity of postfire persistence. While greater than 95% of the dominant Metrosideros trees were top-killed, more than half survived fires via basal sprouting. Metrosideros trees with diameters >20 cm sprouted in lower percentages than smaller trees. At least 17 of 29 native woody species colonized the postfire environment via seedling establishment. Although the native biota possess adaptations facilitating persistence following wildfire, the presence of highly competitive invasive plants and ungulates will likely alter postfire succession.

Published

2008

34. Scale insects of the families Asterolecaniidae and Eriococcidae (Hemiptera: Coccoidea) in New Caledonia

Author

D. J. Williams

Subjects

Nothofagus, Scale insect, Insecta, Arthropoda, biology, Metrosideros, Biodiversity, biology.organism_classification, Hemiptera, Eriococcidae, Genus, Asterolecaniidae, Botany, Animalia, Taxonomy (biology), Ecology, Evolution, Behavior and Systematics, Taxonomy

Abstract

The scale insect families Asterolecaniidae and Eriococcidae are discussed from New Caledonia. One new genus Oacoccus gen. nov., and a new species Oacoccus nothofagi sp. nov. on Nothofagus sp., are described in the Asterolecaniidae, and a new species Eriococcus millei sp. nov. is described in the Eriococcidae. A new genus Rhopalotococcus gen. nov., and two new species Rhopalotococcus dugdalei sp. nov. and Rhopalotococcus metrosideri sp. nov., are also described in the Eriococcidae. Both species induce leaf galls on Metrosideros sp. Keys are provided for all the New Caledonian genera and species in the families Asterolecaniidae and Eriococcidae.

Published

2007

35. A Late Quaternary Record of Natural Change and Human Impact from Rangihoua Bay, Bay of Islands, Northern New Zealand

Author

Mark Horrocks, Tatjana Jacobi, Angela Middleton, Donna D'Costa, Paul Augustinus, Scott L. Nichol, and Phil Shane

Subjects

geography, Peat, geography.geographical_feature_category, Ecology, biology, Metrosideros, Estuary, biology.organism_classification, Dacrydium, Oceanography, Fuscospora, Prumnopitys taxifolia, Quaternary, Bay, Geology, Earth-Surface Processes, Water Science and Technology

Abstract

A multiproxy analysis of back-dune sediment cores from Rangihoua Bay, northern New Zealand, provides an environmental history of the Late Quaternary, placing human impacts on the site into a geomorphological and ecological context. The inferred paleoecological significance of the trends is generally coeval between proxies. The history commences with a Late Pleistocene deposit that formed part of a river terrace during lower sea level. The dryland vegetation at that time was dominated by Fuscospora forest. The record recommences at ca. 7400 YBP, by which time Fuscospora had been replaced by podocarp-hardwood forest, comprising mainly Dacrydium and Prumnopitys taxifolia emerging through a Metrosideros canopy. One of the core sites was a lagoon fringed with mainly Cyperaceae, Leptospermum, and Dodonaea. Redox-sensitive elements reflect phases of anoxia related to variation in lagoon depth. Transition from lagoon to peat swamp, due to natural infilling and/or climate change, occurred after ca. 5500 Y...

Published

2007

36. First record of Fergusonina (Diptera: Fergusoninidae) and associated Fergusobia (Tylenchida: Neotylenchidae) forming galls on Metrosideros (Myrtaceae) from New Zealand

Author

Nicholas Martin, Kerrie A. Davies, Gary S. Taylor, and Trevor K. Crosby

Subjects

Metrosideros excelsa, Sponge spicule, biology, Tylenchida, Insect Science, Metrosideros, Biogeography, Myrtaceae, Botany, Seta, Taxonomy (biology), biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Abstract

A new species of fly, Fergusonina metrosiderosi Taylor sp.n. (Diptera: Fergusoninidae) [and its associated nematode, Fergusobia pohutukawa Davies sp.n. (Tylenchida: Neotylenchidae)], is described from unilocular basal shoot-bud galls on Pohutukawa (New Zealand Christmas Tree), Metrosideros excelsa Banks ex Gaertn. (Myrtaceae). The fly is characterized by the short, sclerotized postabdomen of the female, distinctly grey wings, reduction in length of the reclinate orbital, postocellar and vertical setae, undifferentiation of the ocellar setae, supernumerary setation of the genae, and three pairs of scutellar setae rather than two. The dorsal shield is restricted to a few raised sclerotized spicules on the first to third thoracic segments of the larva and epidermis of the puparium. The nematode is characterized by the combinations of arcuate shape, small ‘a’ ratio, swollen cuticle, small cephalic region with elevated circum-oral area with a flat tip, coarse annulation and relatively slender conical tail of the parthenogenetic female, and coarse annulation, long bursa and angular spicule with short, broad, offset manubrium of the male. Fergusonina metrosiderosi sp.n. and Fergusobia pohutukawa sp.n. represent the first record of the fly-nematode association from the host genus Metrosideros, and the first record from New Zealand. Aspects of the biology and biogeography of the fly-nematode association are discussed.

Published

2007

37. The population genomic signature of environmental association and gene flow in an ecologically divergent tree species Metrosideros polymorpha (Myrtaceae)

Author

Hiroshi Kudoh, Ayako Izuno, Yuki Tsujii, Yuji Isagi, Kentaro Shimizu, Yusuke Onoda, Kanehiro Kitayama, Atsushi J. Nagano, Masaomi Hatakeyama, Rie Shimizu-Inatsugi, and Mie N. Honjo

Subjects

0301 basic medicine, Gene Flow, Metrosideros, Myrtaceae, Population, Metrosideros polymorpha, Polymorphism, Single Nucleotide, Hawaii, Gene flow, Trees, 03 medical and health sciences, Effective population size, Genetics, education, Ecology, Evolution, Behavior and Systematics, Islands, education.field_of_study, biology, Genomic signature, biology.organism_classification, 030104 developmental biology, Genetics, Population, Genetic marker, Genetic structure, Metagenomics

Abstract

Genomewide markers enable us to study genetic differentiation within a species and the factors underlying it at a much higher resolution than before, which advances our understanding of adaptation in organisms. We investigated genomic divergence in Metrosideros polymorpha, a woody species that occupies a wide range of ecological habitats across the Hawaiian Islands and shows remarkable phenotypic variation. Using 1659 single nucleotide polymorphism (SNP) markers annotated with the genome assembly, we examined the population genetic structure and demographic history of nine populations across five elevations and two ages of substrates on Mauna Loa, the island of Hawaii. The nine populations were differentiated into two genetic clusters distributed on the lower and higher elevations and were largely admixed on the middle elevation. Demographic modelling revealed that the two genetic clusters have been maintained in the face of gene flow, and the effective population size of the high-altitude cluster was much smaller. A FST -based outlier search among the 1659 SNPs revealed that 34 SNPs (2.05%) were likely to be under divergent selection and the allele frequencies of 21 of them were associated with environmental changes along elevations, such as temperature and precipitation. This study shows a genomic mosaic of M. polymorpha, in which contrasting divergence patterns were found. While most genomic polymorphisms were shared among populations, a small fraction of the genome was significantly differentiated between populations in diverse environments and could be responsible for the dramatic adaptation to a wide range of environments.

Published

2015

38. Hurricane Effects on Nitrogen Trace Gas Emissions in Hawaiian Montane Rain Forest1

Author

Ralph H. Riley and Peter M. Vitousek

Subjects

Pollution, Disturbance (geology), biology, Ecology, media_common.quotation_subject, Metrosideros, chemistry.chemical_element, Rainforest, Nitrous oxide, biology.organism_classification, Nitrogen, chemistry.chemical_compound, chemistry, Environmental chemistry, Soil water, Environmental science, Nitrification, Ecology, Evolution, Behavior and Systematics, media_common

Published

2006

39. Lipophilic C-methylflavonoids with no B-ring oxygenation in Metrosideros species (Myrtaceae)

Author

Rex T. Weavers, Kamarul'Ain Mustafa, and Nigel B. Perry

Subjects

Metrosideros excelsa, chemistry.chemical_compound, biology, chemistry, Metrosideros, Myrtaceae, Botany, biology.organism_classification, Ring (chemistry), Biochemistry, Flavanone, Ecology, Evolution, Behavior and Systematics

Abstract

Five unusual C-methylflavonoids lacking B-ring oxygenation (2′,4′-dihydroxy-3′,5′-dimethyl-6′-methoxychalcone, 2′,4′-dihydroxy-3′-methyl-6′-methoxychalcone, 2′,6′-dihydroxy-3′-methyl-4′-methoxychalcone, 2′-hydroxy-3′-methyl-4′,6′-dimethoxychalcone and 5,7-dihydroxy-6,8-dimethylflavanone) were found for the first time in Metrosideros excelsa. The flavanone was the major constituent in leaves, whereas 2′,6′-dihydroxy-3′-methyl-4′-methoxychalcone dominated all other aerial plant parts studied. Other Metrosideros species were investigated for these five flavonoids. C19–C36 aldehydes and C22–C32 alcohols were also identified from the dried seed capsules of M. excelsa.

Published

2005

40. The effects of foliar pubescence and nutrient enrichment on arthropod communities of Metrosideros polymorpha (Myrtaceae)

Author

Daniel S. Gruner, Andrew D. Taylor, and Rebecca E. Forkner

Subjects

Biomass (ecology), Herbivore, Ecology, biology, Insect Science, Metrosideros, Myrtaceae, Botany, Detritivore, Dominance (ecology), Metrosideros polymorpha, biology.organism_classification, Trophic level

Abstract

Nutrient resource availability and host-plant foliar pubescence both influence arthropod food webs, but multifactor studies are needed to under- stand their interdependence and relative importance. Arthropods were sampled by clipping foliage from Metrosideros polymorpha (Myrtaceae) trees of pubescent, glabrous, and intermediate leaf forms on fertilised and unfertilised plots. 2. Fertilisation decreased leaf mass per area (LMA) but did not change the relative mass of pubescence within leaf morphological classes. 3. Fertilisation increased densities of individuals in four taxonomic orders, densities of individuals and species of all trophic levels, and the biomass of Collembola and Homoptera. Herbivore relative diversity (Shannon H 0 ) also increased with fertilisation, but detritivore diversity declined due to increasing dominance of Salina celebensis (Schaeffer) (Collembola). 4. Detritivore density, driven again by S. celebensis, increased with decreasing leaf pubescence, but Heteroptera and Acari were most abundant on the inter- mediate pubescence class, and Psocoptera density and biomass increased with increasing pubescence. Trophic-level species density did not change with leaf morphological class, but relative diversity of all arthropods and of detritivores increased with increasing pubescence. 5. Both resource availability and leaf pubescence affected Metrosideros arthro- pod communities. However, the pervasive positive influence of fertilisation did not translate to compositional shifts, and there were no interactions with leaf morphological class. In contrast, the effects of leaf pubescence on arthropod density, biomass, and diversity were more restricted taxonomically, and non- parametric MANOVA and redundancy analyses demonstrated significant differen- tiation in community composition on the pubescent morphology.

Published

2005

41. Palaeoenvironment and human impact in modifying vegetation at Mt St John, Auckland Isthmus, New Zealand

Author

Donna D'Costa, Phil Shane, C. Prior, Scott L. Nichol, and Mark Horrocks

Subjects

Palynology, Griselinia, Peat, biology, Metrosideros, Plant Science, biology.organism_classification, Paleontology, Impact crater, Scoria, Tephra, Quaternary, Ecology, Evolution, Behavior and Systematics, Geology

Abstract

A 2.34 m sediment profile from the base of the crater of Mt St John volcano (a small basaltic cone on Auckland Isthmus) provides a partial environmental record of the Late Quaternary. The record highlights potential age control problems with sediment cores taken directly from archaeological sites. Two distal tephras were recorded: 9.5 ka Rotoma and 7 ka Tuhua. A date of 16 309 ± 90 14C yr BP from the basal scoria of the profile provides a minimum date for the eruption of Mt St John. Pollen was present only in the upper 0.33 m of the profile, in a layer of peat and soil which caps highly weathered silts and clays eroded from the crater walls. In early Polynesian times (most likely after c. 800 14C yr BP), vegetation of the crater swamp was dominated by Cyperaceae sedges and Paesia ground fern. Dacrycarpus trees were also present. Podocarp‐hardwood forest, dominated by Metrosideros, grew on the rim and inner slopes of the crater. Elaeocarpus, Griselinia, and Cyathea were also present. A decline in ...

Published

2005

42. Contributions to a chromosome atlas of the New Zealand flora ‐ 38. Counts for 50 families

Author

Brian G. Murray, P. M. Datson, and P. J. de Lange

Subjects

Freycinetia, Olearia, biology, Celmisia, Lycopodiaceae, Metrosideros, Botany, Hebe, Pittosporum dallii, Plant Science, biology.organism_classification, Lycopodiella, Ecology, Evolution, Behavior and Systematics

Abstract

Documented chromosome numbers are reported for 187 taxa (170 species, 9 subspecies, 8 varieties), 5 hybrids (four putative, one artificial), and 18 of uncertain rank from 50 families (84 genera; 2 lycophyte, 11 pterophyte and 71 anthophyte). Of these, 189 counts are new for the New Zealand flora (167 of these are from named taxa). Many of the counts reported are from more poorly investigated families (e.g., Cyperaceae, Lycopodiaceae, Pota‐mogetonaceae) and genera (e.g., Desmoschoenus, Freycinetia, Lycopodiella, Lycopodium, Potamo‐geton, Schoenus), indigenous to New Zealand, or from nationally uncommon and/or threatened taxa (e.g., Eleocharis neozelandica, Hebe societatis, Myriophyllum robustum, and Pittosporum dallii), and/or newly described plants (e.g., Gingidia gri‐sea, Olearia adenocarpa), while three counts are from naturalised species (Alternanthera sessilis, Nephrolepis cordifolia, and Senecio skirrhodon), and one from a cultivated plant of Metrosideros nervulosa. In the majority of genera...

Published

2004

43. ATTENUATION OF TOP-DOWN AND BOTTOM-UP FORCES IN A COMPLEX TERRESTRIAL COMMUNITY

Author

Daniel S. Gruner

Subjects

Biomass (ecology), biology, Primary producers, Ecology, Metrosideros, Detritivore, Terrestrial ecosystem, Metrosideros polymorpha, biology.organism_classification, complex mixtures, Ecology, Evolution, Behavior and Systematics, Food web, Trophic level

Abstract

Carnivore (top-down) and resource (bottom-up) influences in food webs are strong and pervasive, but few studies have investigated their interactive effects in species-rich terrestrial ecosystems. This study focused on arthropods associated with the dominant tree species, Metrosideros polymorpha (Myrtaceae), in Hawaiian forests. Severe soil nutrient limitation on a 120-yr-old lava flow was removed by fertilization and combined with bird predator exclusion cages in a randomized block design. Arthropod densities were measured from clipped foliage at the outset and conclusion of a 33-mo experiment, and their biomass was estimated using regression equations. Metrosideros foliar nitrogen, tree growth, and biomass increased directly in response to fertilization but did not change with bird exclusion. Fertilization increased detritivore densities but not biomass, and both density and biomass of herbivores, while bird exclusion increased both density and biomass of carnivores. Fertilization also increased spider density and biomass, but bird exclusion increased spider numbers (15 species) only in high resource plots. Overall, trophic level biomass responses were less pronounced than density because smaller bodied individuals responded more to enrichment. Bottom-up factors controlled basal trophic levels, and detritivores comprised the largest fraction of arthropod density and biomass. Conversely, top-down impacts were apparent but variable, limited to higher order consumers, and did not cascade to the level of primary producers. These experimental results were consistent with the view that complex forest ecosystems are structured on a bottom-up template.

Published

2004

44. A late Quaternary phylogeography for Metrosideros (Myrtaceae) in New Zealand inferred from chloroplast DNA haplotypes

Author

Heather A. Brown, Richard C. Gardner, Shane D. Wright, D. Jeanette Keeling, Peter J. De Lange Fls, and Tharushini K. Bowala

Subjects

Phylogeography, Chloroplast DNA, biology, Ecology, Metrosideros, Introgression, Stadial, Glacial period, biology.organism_classification, Endemism, Ecology, Evolution, Behavior and Systematics, Woody plant

Abstract

Because of its remoteness and mid-latitude position, New Zealand lacks access to the tropical climates that might have ensured straightforward survival for frost-sensitive species during glacial times. Nevertheless, the New Zealand lowland flora retains a substantial complement of plants sourced in the tropics. While there have been extinction pulses for elements of the frost-sensitive flora under glacial/stadial regimes, the surviving remnants have been able to recolonize large areas of habitat during successive warm climate periods. Refugia for such species in stadial New Zealand are likely to have been localized and ecologically suboptimal. To examine these relationships we have applied chloroplast DNA sequence data to the investigation of phylogeographical pattern for five endemic species of Metrosideros subg. Metrosideros, a wide-ranging group of mostly frost-sensitive woody plants in New Zealand. The results of this research verify the location of two generally mooted stadial refugia for the country and provide support for the existence of a third. A simple pattern of chloroplast haplotype diversity was recorded in extra-refugial areas, compared with a greater complexity in the vicinity of the identified refugia. This pattern was independently repeated in both main islands. The proposed refugia correspond to contemporary localities of high average winter temperatures. The sharing of chloroplast haplotypes between the different species of Metrosideros examined suggests that there has been a history of repeated hybridization and introgression for these plants, possibly initiated by periods of refugial confinement. © 2004 The Linnean Society of London, Biological Journal of the Linnean Society, 2004, 83, 399–412.

Published

2004

45. Stepping stones to Hawaii: a trans-equatorial dispersal pathway for Metrosideros (Myrtaceae) inferred from nrDNA (ITS+ETS)

Author

Stephen R. Wichman, John W. Dawson, Shane D. Wright, Richard C. Gardner, and Catherine G. Yong

Subjects

Taxon, Ecology, biology, Insular biogeography, Metrosideros, Biogeography, Biological dispersal, Internal transcribed spacer, Subgenus, Phytogeography, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Abstract

Aim The majority of Hawaii's plants are derived from the south and west of the Pacific rim, suggesting that at least some of the founders have crossed the climatic discontinuity at the equator. However, the pathways of these dispersal events are not well understood. We sought to elucidate such a pathway for the plant genus Metrosideros Banks ex Gaertn., which appears to have colonized Hawaii from New Zealand. Location We have previously analysed the internal transcribed spacer (ITS) sequence of nrDNA for thirty-six taxa of Metrosideros subgenus Metrosideros distributed across Melanesia and Polynesia. Further we collected two taxa from the Austral and Marquesas Islands. Methods Phylogenetic analysis was undertaken using both the ITS and external transcribed spacer (ETS) regions of nrDNA for twenty-three taxa from Polynesia and East Melanesia. Results The increased resolution achieved by combining ETS data with that of ITS allowed discrimination of two subclades in eastern Oceania. One subclade groups all the Hawaiian taxa together with M. collina (J. R. & G. Forst.) A. Gray from the Marquesas Islands. Main conclusions From an origin in New Zealand, the woody angiosperm Metrosideros is likely to have crossed the equator to Hawaii using a staging point in the remote Marquesas Islands. Colonization of Hawaii by the wind-borne seed of these plants has been achieved against the flow of the prevailing Trade winds north of the equator. A possible climatic mechanism for this dispersal is described.

Published

2003

46. [Untitled]

Author

Peter M. Vitousek, Stephan Hättenschwiler, and Ann E. Hagerman

Subjects

Nutrient cycle, Metrosideros, food and beverages, Metrosideros polymorpha, Plant litter, Biology, biology.organism_classification, Nutrient, Agronomy, Botany, Litter, Environmental Chemistry, Ecosystem, Soil fertility, Earth-Surface Processes, Water Science and Technology

Abstract

In nutrient-poor ecosystems high polyphenol concentrations in plant litter have been proposed to influence soil nutrient availability in benefit of the plants. We addressed the question whether litter polyphenol concentrations vary across a soil chronosequence of almost identical geology, climate and plant species composition, but of a wide range in nitrogen (N) and phosphorus (P) availability in the Hawaiian Islands. Concentrations of total phenolics (TPh) and proanthocyanidins (PA) in leaf litter of the dominant tree species Metrosideros polymorpha were higher at the oldest, P-limited site compared to the youngest, N-limited site, with intermediate values at the two relatively fertile sites co-limited by N and P. Polyphenol concentrations in fine root litter differed considerably from those observed in leaf litter and varied differently across the soil age gradient. Long-term fertilization did not significantly alter polyphenol concentrations in Metrosideros litter at either site. Moreover, green leaves and leaf litter of Metrosideros showed similar relative differences among sites when compared between natural populations and plants from the same populations but grown in a common garden. These results suggest that polyphenol concentrations inherently vary among populations of the dominant tree species in Hawaiian montane forests possibly indicating an adaptation to ecosystem properties such as substrate age related differences in soil fertility. The combined above- and below-ground input rate of TPh ranged from 62.4 to 170.8 g/m2/yr and was significantly higher at the P-limited than at the N-limited site. Root-derived polyphenols contributed a much higher absolute and relative amount of phenolic input at the N-limited than at the P-limited site. The differences in amount, quality, and pathways of input might suggest specific interactions with soil processes and nutrient cycling among the Hawaiian rainforests studied here.

Published

2003

47. Late Glacial beech forest: an 18,000–5000-BP pollen record from Auckland, New Zealand

Author

John Flenley, A.K Lancashire, and M Harper

Subjects

Nothofagus, Global and Planetary Change, Peat, biology, Ecology, Metrosideros, Last Glacial Maximum, Oceanography, biology.organism_classification, Physical geography, Glacial period, Quaternary, Southern Hemisphere, Geology, Holocene

Abstract

Australia, New Zealand and South America are the main sources of terrestrial climate change records for midlatitudes in the Southern Hemisphere. The advantage of studying the New Zealand record is that its vegetation has been subject to human influence for only the last thousand years. Vegetation records for Auckland are important because earlier work indicates that during the Last Glacial Maximum, the boundary between scrubland and forest lay in the Auckland region. Auckland is situated in a volcanic field and the coring site was in the crater of a small extinct volcano (Crater Hill, formed about 29 ka BP). The 4-m long core contained sediment dating from c. 5 to c. 18 ka BP. We present pollen and diatom records from this core. The pollen records from basal clays indicate southern beech forest (mainly Nothofagus menziesii) was present in the region around Crater Hill from 18 to 14.5 ka BP. At this time, there were areas of scrub in the crater surrounding a hardwater lake. The southern forest limit could well have been close to the site. Records from overlying peat indicate beech forest was replaced by Podocarp broadleaf forest as the Last Glacial ended. Metrosideros spp. (coastal forest trees) peak in the early Holocene. This coincides with an impoverished diatom flora which indicates drier conditions in the basin. When the lake reformed in the Holocene on peat its water was more acidic.

Published

2002

48. A 6000‐year palaeoenvironmental record from Harataonga, Great Barrier Island, New Zealand

Author

Scott L. Nichol, Mark Horrocks, and Phil Shane

Subjects

geography.geographical_feature_category, biology, Ecology, Metrosideros, Plant Science, biology.organism_classification, Swamp, Libocedrus, Dacrydium, Geography, Ascarina, Cyathea dealbata, Cyathea, Tephra, Ecology, Evolution, Behavior and Systematics

Abstract

A pollen, sediment, and tephra record from a drained swamp at Harataonga contains a history of the local coastal environment from the Mid Holocene. This commences c. 6000 cal yr BP in a freshwater environment with swamp forest composed mainly of Laurelia, Leptospermum, Ascarina, and Cyathea spp. Dodonaea and Cyperaceae grew on margins of this forest. Forest on the hills surrounding the wetland comprised mainly Metrosideros, with emergent Dacrydium and Libocedrus. Ascarina, Rhopalostylis, and Cyathea dealbata type were a significant part of the understorey of the hillside forest. Around the time of deposition of the 5550 cal yr BP Whakatane tephra, a freshwater lake developed at the site. Extensive Cyperaceae swamp developed on the fringes of the lake. Shortly after c. 2900 cal yr BP, Dacrycarpus briefly invaded swamp forest, possibly as a result of storm disturbance, and the site made the final transition to swamp. Myrsine and then Hebe shrubs invaded fringes of the swamp as the water table fell,...

Published

2002

49. The ecological consequences of habitat loss and fragmentation in New Zealand and Australia

Author

Saul Cunningham, Poppy Lakeman Fraser, and Robert M. Ewers

Subjects

Nothofagus, Habitat fragmentation, Habitat destruction, biology, Ecology, Metrosideros, Fragmentation (computing), New Zealand pigeon, biology.organism_classification, Restoration ecology, Fire-stick farming

Published

2014

50. A garden at the edge of the world; the diversity and conservation status of the New Zealand flora

Author

Carlos A. Lehnebach

Subjects

Flora, Habitat destruction, biology, Ecology, Metrosideros, Fauna, Threatened species, Conservation status, New Zealand pigeon, Native plant, biology.organism_classification

Abstract

Summary After drifting away from Gondawana, the land that we presently know as New Zealand went through several geological events such as the Oligocene drowning, the upheaval of the Southern Alps and several glacial–interglacial periods. These events have dramatically shaped New Zealand’s flora and fauna, causing the extinction of some lineages but also promoting speciation and ecological diversification in others. Nowadays, the New Zealand vascular flora includes over 2230 species; most of them endemic ( c . 80%). Despite being one of the last places on the world to be reached by people, damage to its native flora and fauna has been significant. Currently, over 38% of the native vascular flora is of conservation concern and six species became extinct. The main threats to New Zealand plants are habitat destruction, herbivory, competition from weeds and the disruption of ecological interactions. Birds are important pollinators and seed dispersers in New Zealand so a decline in their number, caused by the introduction of mammalian predators, has severely damaged plant–bird interactions and the effects of reproduction and dispersal failure are already being noticed. The spread of introduced plant pathogens is also a threat to native plants and their effect on native trees, in particular, is a matter of current concern. Preservation of New Zealand’s flora is a matter of national and international relevance and many initiatives are working towards this goal. Examples include: habitat protection and restoration, conservation by cultivation, and establishment of seed banks. Future research, however, should focus on the autoecology of threatened plants, particularly in those species that depend on mutualistic interactions. This research will help to maximise resources allocated to their conservation and secure their survival and functioning in the long term. Origin of New Zealand flora

Published

2014