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1

HAN, XIAO, and ZHI-QIANG ZHANG. "A new genus and three new species of eriophyoid mites from New Zealand Coprosma (Rubiaceae)." Zootaxa 4550, no. 1 (January 22, 2019): 101. http://dx.doi.org/10.11646/zootaxa.4550.1.4.

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A new genus and three new species of eriophyoid mites of the family Eriophyidae are described and illustrated from various Coprosma species in New Zealand: Calareolata gen. nov., Calareolata coprosmae sp. nov., Cosetacus mamangi sp. nov. and Aculus robustalucidus sp. nov.. A key to the eriophyoid mites associated with Coprosma species in the world is provided.
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2

XU, YU MEI, ZENG QI ZHAO, BRETT J. R. ALEXANDER, and DONGMEI LI. "Isolation of Litylenchus coprosma from Coprosma macrocarpa, a new host and distribution in New Zealand." Zootaxa 4555, no. 2 (February 12, 2019): 287. http://dx.doi.org/10.11646/zootaxa.4555.2.11.

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Coprosma macrocarpa, known as the large-seeded coprosma or coastal karamu, is a shrub endemic to New Zealand. To our knowledge, no reports of plant parasitic nematodes associated with C. macrocarpa have been reported. Here we report the detection and identification of the nematode, Litylenchus coprosma, extracted from C. macrocarpa in Otata Island.
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3

Winks, C. J., M. T. Andersen, J. G. Charles, and R. E. Beever. "Identification of Zeoliarus oppositus (Hemiptera: Cixiidae) as a Vector of ‘Candidatus Phytoplasma australiense’." Plant Disease 98, no. 1 (January 2014): 10–15. http://dx.doi.org/10.1094/pdis-04-13-0421-re.

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‘Candidatus Phytoplasma australiense’ is associated with a number of plant diseases in New Zealand. The only known vector of this pathogen was Zeoliarus atkinsoni, a planthopper considered to be monophagous on New Zealand flax (Phormium spp.). The work carried out shows that Z. oppositus, which is polyphagous, is able to vector ‘Ca. P. australiense’ to both Coprosma robusta (karamu) and Cordyline australis (New Zealand cabbage tree). Although transmission was achieved to both these species, the disease symptomatology was more evident in C. australis. Two approaches were taken to achieve transmission. First, insects were collected from areas around symptomatic Coprosma plants and caged directly on test plants. Second, insects were collected from grasses and sedges in areas where disease was less evident and were fed on known infected Coprosma plants prior to being caged on test plants. Transmission was achieved using both approaches, although transmission was far greater (30% compared with 4%) from insects that were directly applied. Phytoplasma DNA was detected in 12% of Z. oppositus individuals tested during all the trials. This work identifies a new vector for ‘Ca. P. australiense’ and contributes to our understanding of the ecology of Cordyline sudden decline and Coprosma lethal decline.
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4

Deans, Bianca J., Alex C. Bissember, and Jason A. Smith. "Practical Isolation of Asperuloside from Coprosma quadrifida via Rapid Pressurised Hot Water Extraction." Australian Journal of Chemistry 69, no. 11 (2016): 1219. http://dx.doi.org/10.1071/ch15743.

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The valuable glycoside asperuloside was efficiently isolated in multigram quantities from Coprosma quadrifida employing a recently developed rapid pressurised hot water extraction (PHWE) method that utilises an unmodified household espresso machine. This study represents the first time C. quadrifida has been extracted and its major chemical components isolated and analysed. Our findings reveal that this species is a rich source of asperuloside (7.0 % yield w/w). Significantly, this represents one of the highest yields obtained of this glycoside from a Coprosma species, and the entire Rubiaceae family more generally.
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5

Liddell, Luke G., William G. Lee, Esther E. Dale, Heidi M. Meudt, and Nicholas J. Matzke. "Pioneering polyploids: the impact of whole-genome duplication on biome shifting in New Zealand Coprosma (Rubiaceae) and Veronica (Plantaginaceae)." Biology Letters 17, no. 9 (September 2021): 20210297. http://dx.doi.org/10.1098/rsbl.2021.0297.

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The role of whole-genome duplication (WGD) in facilitating shifts into novel biomes remains unknown. Focusing on two diverse woody plant groups in New Zealand, Coprosma (Rubiaceae) and Veronica (Plantaginaceae), we investigate how biome occupancy varies with ploidy level, and test the hypothesis that WGD increases the rate of biome shifting. Ploidy levels and biome occupancy (forest, open and alpine) were determined for indigenous species in both clades. The distribution of low-ploidy ( Coprosma : 2 x , Veronica : 6 x ) versus high-ploidy ( Coprosma : 4–10 x , Veronica : 12–18 x ) species across biomes was tested statistically. Estimation of the phylogenetic history of biome occupancy and WGD was performed using time-calibrated phylogenies and the R package BioGeoBEARS. Trait-dependent dispersal models were implemented to determine support for an increased rate of biome shifting among high-ploidy lineages. We find support for a greater than random portion of high-ploidy species occupying multiple biomes. We also find strong support for high-ploidy lineages showing a three- to eightfold increase in the rate of biome shifts. These results suggest that WGD promotes ecological expansion into new biomes.
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6

Davies, Kerrie, Zeng Qi Zhao, Brett Alexander, and Ian Riley. "Litylenchus coprosma gen. n., sp. n. (Tylenchida: Anguinata), from leaves of Coprosma repens (Rubiaceae) in New Zealand." Nematology 13, no. 1 (2011): 29–44. http://dx.doi.org/10.1163/138855410x499076.

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AbstractA new genus and species of anguinid nematode, Litylenchus coprosma gen. n., sp. n., was recovered from leaves of Coprosma repens A. Rich. from an amenity planting in Wellington, New Zealand. The genus is characterised by having slender males and slender or semi-obese females, pharynx with a weak non-muscular median bulb, a terminal bulb containing the pharyngeal glands, female with a single gonad having a quadricolumella and post-uterine sac; male with arcuate spicules and the bursa arising 1-2 anal body diam. anterior to the cloacal aperture and extending nearly to the tail tip, and does not induce galls, only foliar chlorosis. The species is characterised by having a short, robust stylet with conus forming ca 40% of stylet length and three well developed rounded knobs, secretory/excretory pore opening posterior to the nerve ring, terminal bulb abutting the intestine, and tail tip of variable form. Molecular phylogeny of near full length small subunit, D2/D3 expansion segments of the large subunit and internal transcribed spacer rRNA genes support the description of L. coprosma gen. n., sp. n. as a new genus and species.
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7

Anderson, Cajsa L., Johan H. E. Rova, and Lennart Andersson. "Molecular phylogeny of the tribe Anthospermeae (Rubiaceae): Systematic and biogeographic implications." Australian Systematic Botany 14, no. 2 (2001): 231. http://dx.doi.org/10.1071/sb00021.

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Phylogeny of the tribe Anthospermeae is estimated on the basis of nucleotide sequence variation in the ITS region (nuclear ribosomal DNA) and the rps16 intron (plastid DNA). It is concluded that it is dubious whether the tribe is monophyletic including Carpacoce. If Carpacoce does belong to the tribe, then it is the sister group of all other genera. There is no support for the traditional subdivision of the tribe into three subtribes. Anthospermum, Galopina, Nenax and Phyllis form one strongly supported subclade. Coprosma, Durringtonia, Leptostigma, Nertera, Normandia, Opercularia and Pomax form another subclade in all most parsimonious trees, but this subclade lacks jackknife support. Opercularia and Pomax, referred to the subtribe Operculariinae, form a basal grade of this second group. However, trees on which Operculariinae are monophyletic are only one step longer than the most parsimonious ones. Normandia is deeply nested within Coprosma. The subdivision of Coprosma into two subgenera is shown to be artificial. It is suggested that the ancestral area of Anthospermeae is Africa, and that the group was spread by long-distance dispersal to north-eastern Antarctica. It is further suggested that occurrences in Hawaii, Tristan da Cunha, and America are due to long-distance dispersal at a time much later than primary cladogenesis.
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8

Orchard.A.E. "A revision of the Coprosma pumila (Rubiaceae) complex in Australia, New Zealand and the Subantarctic Islands." Brunonia 9, no. 2 (1986): 119. http://dx.doi.org/10.1071/bru9860119.

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The widespread complex of mat-forming Coprosma species, hitherto known as 'Coprosma pumila', plus some close allies (C. petriei, C. atropurpurea, C. nivalis) have been reexamined. C. pumila s. str. is shown to be restricted to the northern central plateau and Ben Lomond areas of Tasmania. The name C. perpusilla Col. is resurrected for the orange-fruited plants of Australia and New Zealand formerly included in C. pumila. A new subspecies, C. perpusilla ssp. subantarctica, is erected for the plants on Macquarie, Auckland, Camp- bell and Antipodes Islands. A new species, C. niphophila, is recognised for the Mt Kosciusko region and the South Island of New Zealand. The six species and two subspecies of the complex are keyed, fully described and illustrated, and their interrelation- ships, particularly their trans-Tasman vicariance, are discussed.
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9

Kanzaki, Natsumi, Yu Ichihara, Takuya Aikawa, Taisuke Ekino, and Hayato Masuya. "Litylenchus crenatae n. sp. (Tylenchomorpha: Anguinidae), a leaf gall nematode parasitising Fagus crenata Blume." Nematology 21, no. 1 (2019): 5–22. http://dx.doi.org/10.1163/15685411-00003190.

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Summary Litylenchus crenatae n. sp., isolated from leaf galls of Fagus crenata from Japan, is described and figured. The new species is characterised by its dimorphism in adult females, six (or more) lateral lines, a more or less pointed tail tip in both sexes, male bursa arising posteriorly and reaching to near tail tip, presence of a quadricolumella and a post-uterine sac in females. Litylenchus crenatae n. sp. is distinguished from its only congener, L. coprosma, by the number of lateral lines, six or more vs four; the lip morphology, offset with very shallow constriction or dome-shaped without clear constriction vs clearly offset; tail tip morphology, more or less pointed vs blunt; and structure of the median bulb, weakly muscular with a clear valve vs not muscular with an obscure valve. The molecular phylogenetic analysis confirms that the new species is close to, but clearly different from, L. coprosma.
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10

Heads, Michael. "Coprosma decurva(Rubiaceae), a new species from New Zealand." New Zealand Journal of Botany 36, no. 1 (March 1998): 65–69. http://dx.doi.org/10.1080/0028825x.1998.9512547.

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11

Molloy, B. P. J., P. J. de Lange, and B. D. Clarkson. "Coprosma pedicellata (Rubiaceae), a new species from New Zealand." New Zealand Journal of Botany 37, no. 3 (September 1999): 383–97. http://dx.doi.org/10.1080/0028825x.1999.9512643.

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12

Lee, William G., I. L. Weatherall, and J. Bastow Wilson. "Fruit Conspicuousness in Some New Zealand Coprosma (Rubiaceae) Species." Oikos 69, no. 1 (February 1994): 87. http://dx.doi.org/10.2307/3545287.

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13

Wagner, Warren, and David Lorence. "Revision of Coprosma (Rubiaceae, tribe Anthospermeae) in the Marquesas Islands." PhytoKeys 4 (July 12, 2011): 109. http://dx.doi.org/10.3897/phytokeys.4.1600.

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14

Druce, A. P. "Coprosma waima(Rubiaceae) — a new species from northern New Zealand." New Zealand Journal of Botany 27, no. 1 (January 1989): 119–28. http://dx.doi.org/10.1080/0028825x.1989.10410150.

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15

de Lange, P. J., M. F. Large, L. Shepherd, J. R. Rolfe, and R. O. Gardner. "The endemic that never was — resolving the status of Coprosma solandri (Rubiaceae)." Gardens' Bulletin Singapore 71, suppl.2 (September 27, 2019): 143–53. http://dx.doi.org/10.26492/gbs71(suppl.2).2019-11.

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16

FRENCH, K., D. J. O'DOWD, and A. LILL. "Fruit removal of Coprosma quadrifida (Rubiaceae) by birds in south-eastern Australia." Austral Ecology 17, no. 1 (March 1992): 35–42. http://dx.doi.org/10.1111/j.1442-9993.1992.tb00778.x.

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17

Heads, Michael. "Metapopulation vicariance in the Pacific genus Coprosma (Rubiaceae) and its Gondwanan relatives." Australian Systematic Botany 30, no. 6 (2017): 422. http://dx.doi.org/10.1071/sb16047.

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Coprosma is perhaps the most ubiquitous plant genus in New Zealand. It belongs to the tribe Anthospermeae, which is distinctive in the family Rubiaceae through its small, simple, wind-pollinated flowers and its southern hemisphere distribution. The tribe comprises four main clades found respectively in South Africa, Africa, Australia and the Pacific. The high level of allopatry among the four subtribes is attributed here to their origin by vicariance. The Pacific clade, subtribe Coprosminae, is widespread around the margins of the South Pacific and also occurs on most of the high islands. Distributions of the main clades in the subtribe are mapped here and are shown to be repeated in other groups. The distribution patterns also coincide with features of regional geology. Large-scale volcanism has persisted in the central Pacific region since at least the Jurassic. At that time, the oldest of the Pacific large igneous provinces, the Shatsky Rise, began to be erupted in the region now occupied by French Polynesia. Large-scale volcanism in the central Pacific continued through the Cretaceous and the Cenozoic. The sustained volcanism, along with details of the clade distributions, both suggest that the Coprosminae have persisted in the central Pacific by survival of metapopulations on individually ephemeral islands. It is also likely that vicariance of metapopulations has taken place, mediated by processes such as the subsidence of the Pacific seafloor by thousands of metres, and rifting of active arcs by transform faults. It is sometimes argued that a vicariance origin is unlikely for groups on young, oceanic islands that have never been connected by continuous land, but metapopulation vicariance does not require physical contact between islands.
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18

Perrie, Leon. "(2801) Proposal to conserve the name Coprosma grandifolia ( Rubiaceae ) with a conserved type." TAXON 70, no. 1 (February 2021): 211. http://dx.doi.org/10.1002/tax.12437.

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19

Cantley, Jason T., Margaret Sporck-Koehler, and Marian M. Chau. "New and resurrected Hawaiian species of pilo (Coprosma, Rubiaceae) from the island of Maui." PhytoKeys 60 (February 11, 2016): 33–48. http://dx.doi.org/10.3897/phytokeys.60.6465.

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20

Polizzi, G., and M. G. Bellardi. "First Report of Tomato spotted wilt virus on Coprosma repens (Mirror Bush) in Italy." Plant Disease 91, no. 10 (October 2007): 1362. http://dx.doi.org/10.1094/pdis-91-10-1362c.

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Coprosma repens A. Rich. (mirror bush, Rubiaceae) is a hardy salt tolerant shrub that is native to New Zealand where it is primarily a coastal weed. In temperate climates, many variegated varieties and hybrids of mirror bush grow extensively in gardens. In February 2007, irregular or semicircular necrotic spots, sometimes in concentric rings, were noticed on leaves of approximately 2,000 potted, 1-year-old plants of C. repens ‘Tapuata Gold’ obtained as cuttings from a nursery located in Catania Province. The symptoms were detected on approximately 60% of the plants and were localized exclusively on older leaves especially in the yellow or white border. Protein A sandwich (PAS)-ELISA showed mirror bush was positive for the Batavian lettuce strain of Tomato spotted wilt virus (antiserum to TSWV: PVAS-450 from American Type Culture Collection, Manassas, VA). Double antibody sandwich (DAS)-ELISA with polyclonal antisera to Cucumber mosaic virus, TSWV, and Impatiens necrotic spot virus confirmed the presence of only TSWV. Reverse transcription (RT)-PCR was employed to characterize the TSWV isolate. RT-PCR was carried out with primers (forward 5′-TTA ACT TAC AGC TGC TTT-3′ and reverse 5′-CAA AGC ATA TAA GAA CTT-3′) specific for the CP gene of TSWV (3). Amplification was performed in a thermal cycler (Gene Amp PCR System 24000; Perkin Elmer, Hayward, CA) by preheating at 94°C for 5 min followed by 30 cycles of 1.5 min of denaturation at 94°C, 2 min of annealing at 48°C, and 1 min for extension at 72°C. Finally, the amplified DNA was incubated at 72°C for 7 min for a final extension. All samples yielded DNA fragments of the expected size of 823 bp, which included the entire N gene. Purified PCR products were cloned and sequencing (GenBank Accession No. EU020104) was done by Sequiserve (Vatterstetten, Germany). Comparison with sequences available from the GenBank database showed 96 to 99% homology with the same region of the genome for all TSWV isolates, thus confirming the identity of the virus as an isolate of TSWV. In the Rubiaceae family, TSWV was previously detected on Galium spp., Ixora spp., Gardenia jasminoides Ellis, and Bouvardia sp. (1,2,4). To our knowledge, this is the first occurrence of this virus on a member of the genus Coprosma. The high incidence of the disease in the nursery could be due to propagation of cuttings from an infected source. References: (1) M. K. Hausbeck et al. Plant Dis. 76:795, 1992. (2) C. Jordá et al. Plant Dis. 79:358, 1995. (3) R. A. Mumford et al. J. Virol. Methods 46:303, 1994. (4) A. M. Vaira et al. Plant Pathol. 42:530,1993.
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21

Polizzi, G., D. Aiello, I. Castello, and A. Vitale. "First Report of Crown and Root Rot Caused by Rhizoctonia solani AG-4 on Coprosma repens and C. lucida in Italy." Plant Disease 93, no. 9 (September 2009): 972. http://dx.doi.org/10.1094/pdis-93-9-0972b.

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Coprosma (J.R. Forster & G. Forster), a genus containing approximately 90 species, occurs principally in New Zealand, Hawaii, Australia, New Guinea, and islands of the Pacific. In Italy, some of these species, including many variegated varieties and hybrids, are grown as ornamental evergreen shrubs or small trees. In June 2008, a crown and root rot was observed in a stock of approximately 12,000 potted 3-year-old plants of Coprosma repens cv. Yvonne and C. lucida in a nursery in eastern Sicily. Disease incidence was approximately 30%. Disease symptoms consisted of water-soaked lesions at the crown of the trunk and a root rot. Successively, older stem lesions turned orange to brown. As a consequence, leaves initially became chlorotic, gradually became necrotic, and death of the plant followed. A fungus with mycelial and morphological characteristics of Rhizoctonia solani Kühn was consistently isolated from crown and root lesions when plated on potato dextrose agar (PDA) amended with streptomycin sulfate at 100 μg/ml. Fungal colonies were initially white, turned brown with age, and produced irregularly shaped, brown sclerotia. Mycelium was branched at right angles with a septum near the branch and a slight constriction at the branch base. Hyphal cells removed from cultures grown at 25°C on 2% water agar were determined to be multinucleate when stained with 1% safranin O and 3% KOH solution (1) and examined at ×400. Anastomosis groups were determined by pairing isolates on 2% water agar in petri plates (3). Pairings were made with tester strains of AG-1 IA, AG-2-2-1, AG-2-2IIIB, AG-2-2IV, AG-3, AG-4, AG-5, AG-6, and AG-11. Anastomosis was observed only with tester isolates of AG-4, giving C2 and C3 reactions (2). Two representative isolates obtained from symptomatic tissues of C. lucida and C. repens cv. Yvonne were deposited at the Fungal Biodiversity Centre, Centraalbureau voor Schimmelcultures (DISTEF CL1 = CBS-124593 and DISTEF CR1 = CBS-124594, respectively). Pathogenicity tests were performed on container-grown, healthy, 3-month-old cuttings. Ten plants of C. lucida and ten plants of C. repens cv. Yvonne were inoculated near the base of the stem with five 1-cm2 PDA plugs from 5-day-old mycelial cultures. The same number of plants served as uninoculated controls. Plants were maintained at 25°C and 95% relative humidity on a 12-h fluorescent light/dark regimen. Symptoms identical to ones observed in the nursery appeared 5 days after inoculation and all plants died within 15 days. No disease was observed on control plants. A fungus identical in culture morphology to R. solani AG-4 was consistently reisolated from symptomatic tissues, confirming its pathogenicity. To our knowledge, this is the first report of R. solani causing crown and root rot on the genus Coprosma. References: (1) R. J. Bandoni. Mycologia 71:873, 1979. (2) D. E. Carling. Page 37 in: Grouping in Rhizoctonia solani by Hyphal Anastomosis Reactions. Kluwer Academic Publishers, the Netherlands, 1996. (3) C. C. Tu and J. W. Kimbrough. Mycologia 65:941, 1973.
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22

Foo, C. L., K. C. Harrington, and M. B. MacKay. "Comparison of weed control techniques to establish three ground cover species." New Zealand Plant Protection 63 (August 1, 2010): 96–101. http://dx.doi.org/10.30843/nzpp.2010.63.6542.

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Weed control strategies for establishing three ground cover species were investigated by planting them in late spring then assessing eight different control treatments during the following 14 months The prostrate woody Coprosma acerosa Taiko established best with black weed mat mulch and EcoCover paper mulch although bark mulches also gave reasonable establishment rates The brittle succulent Sedum mexicanum Acapulco Gold also established well with black weed mat and paper mulch although a sawdust mulch was particularly suitable The frostprone Polygonum capitatum which regrows readily from seed did best with soil kept bare by handhoeing or selective herbicides although the paper mulch also rated well Thus the best weed control strategy varied depending on the characteristics of the ground cover being established Other considerations including relative costs are also discussed
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23

Wichman, Stephen R., Shane D. Wright, Ewen K. Cameron, D. Jeannette Keeling, and Richard C. Gardner. "Elevated genetic heterogeneity and Pleistocene climatic instability: inferences from nrDNA in New Zealand Coprosma (Rubiaceae)." Journal of Biogeography 29, no. 7 (July 2002): 943–54. http://dx.doi.org/10.1046/j.1365-2699.2002.00727.x.

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Hong, Jeong, and Jeung Keun Suh. "Pre- and post-production characteristics of Coprosma as influenced by temperature, irradiance, and nutrient treatments." Scientia Horticulturae 145 (September 2012): 46–51. http://dx.doi.org/10.1016/j.scienta.2012.07.013.

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Harrington, K. C., and H. K. Schmitz. "Initial screening of herbicides tolerated by native plants." New Zealand Plant Protection 60 (August 1, 2007): 133–36. http://dx.doi.org/10.30843/nzpp.2007.60.4670.

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During the establishment of native plants in revegetation projects the plants often need to be released from weed competition but little is known of their tolerance of herbicides suitable for release spraying Ten native species were treated as 8monthold plants in planter bags with eight herbicides at rates suitable to control weeds Clopyralid fluazifop and haloxyfop could probably control weeds selectively around Coprosma robusta Hebe stricta Pittosporum tenuiflorum Carex flagellifera Phormium cookianum and Leptospermum scoparium Clopyralid was not tolerated by Fuchsia excortica which was the most sensitive species to many of the herbicides evaluated However this species showed good tolerance to haloxyfop fluazifop and terbuthylazine Although Plagianthus regius was also damaged by clopyralid it tolerated metsulfuron and terbuthylazine The two grasses evaluated Poa cita and Chionochloa flavicans tolerated clopyralid and aminopyralid well but were severely damaged by haloxyfop fluazifop and terbuthylazine
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Lee, William G., J. Bastow Wilson, and Peter N. Johnson. "Fruit Colour in Relation to the Ecology and Habit of Coprosma (Rubiaceae) Species in New Zealand." Oikos 53, no. 3 (November 1988): 325. http://dx.doi.org/10.2307/3565532.

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Utteridge, T. M. A. "New Species of Coprosma (Rubiaceae) from New Guinea. Contributions to the Flora of Mt Jaya VII." Kew Bulletin 57, no. 1 (2002): 195. http://dx.doi.org/10.2307/4110828.

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Foo, C. L., K. C. Harrington, and M. B. MacKay. "Weed suppression by twelve ornamental ground cover species." New Zealand Plant Protection 64 (January 8, 2011): 149–54. http://dx.doi.org/10.30843/nzpp.2011.64.6014.

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Twelve ornamental ground cover species were planted then monitored for 2 years to assess their relative usefulness for controlling weeds Persicaria capitatum established quickly and covered the plots but it was unsuitable for keeping weeds controlled because it died back each winter from frost damage Acaena inermis and Muehlenbeckia axillaris also completely covered the plots within 12 months and they effectively prevented weeds from establishing during a 5month assessment period in the second year Many of the other planted species also suppressed weeds well and those that decreased the ratio of red to far red light intercepted by the soil underneath them best gave better weed control Other ground covers that suppressed weeds well included Ajuga reptans Coprosma acerosa Grevillea lanigera Juniperus procumbens Pimelea prostrata Sedum mexicanum and Veronica peduncularis Some species such as S mexicanum and P prostrata shaded the soil less well at certain times each year
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29

Leitch, Tamara N., Peter Dann, and John P. Y. Arnould. "The diet of Pacific gulls (Larus pacificus) breeding at Seal Island in northern Bass Strait." Australian Journal of Zoology 62, no. 3 (2014): 216. http://dx.doi.org/10.1071/zo13066.

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The endemic Pacific gull (Larus pacificus) is Australia’s largest larid, and though little is currently known of its foraging ecology, its size and wide distribution suggest that it may play an important role within the marine environment. In the present study, regurgitate pellets collected from Seal Island in northern Bass Strait were used to compare intra- and interannual trends in diet composition. The main taxa identified in pellets were the common diving-petrel (Pelecanoides urinatrix), leatherjacket species (Family Monacanthidae), short-tailed shearwater (Puffinus tenuirostris) and mirror bush (Coprosma repens). Analysis of similarity (ANOSIM) identified no significant differences in numerical abundance of the dominant prey species between years, suggesting that the prey base in this region is temporally consistent or that the gulls consume low enough numbers to be unaffected by fluctuation in prey populations. Diving-petrels were consumed in consistently high numbers, suggesting the gulls may be an important predator of this species, or that the gulls are particularly skilled at foraging for them.
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XUE, XIAO-FENG, and ZHI-QIANG ZHANG. "New Zealand Eriophyoidea (Acari: Prostigmata): an update with descriptions of one new genus and six new species." Zootaxa 1962, no. 1 (December 12, 2008): 1–32. http://dx.doi.org/10.11646/zootaxa.1962.1.1.

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The New Zealand fauna of Eriophyoidea (Acari: Prostigmata) is updated with a checklist. One new genus, six new species, three new combinations, one new record and some new distribution records of eriophyoid mites from New Zealand are described and illustrated, namely Disella rebeeveri sp. nov. on Kunzea ericoides (Myrtaceae); Cecidophyopsis hendersoni (Keifer, 1954), rec. nov. on Yucca glauca and Y. elephantipes (Agavaceae); Nameriophyes sapidae gen. nov. & sp. nov. on Rhopalostylis sapida (Palmae); Eriophyes bennetti sp. nov. on Fuchsia excorticata (Onagraceae); Eriophyes georgeae sp. nov. on Brachyglottis elaeagnifolia (Asteraceae); Aceria flynni sp. nov. on Kunzea ericoides (Myrtaceae); Aculops propinquae (Manson, 1984), comb. nov. on Coprosma propinqua (Rubiaceae); Aculus corynocarpi (Manson, 1984), comb. nov. on Corynocarpus laevigatus (Corynocarpaceae); Aculus heatherae (Manson, 1984), comb. nov. on Raukaua simplex (Araliaceae), Leptospermum scoparium (Myrtaceae) and Syzygium maire (Myrtaceae); Aculus lalithi sp. nov. on Melicope ternate (Rutaceae). A key to the New Zealand species of Eriophyes is provided.
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31

Wood, Kenneth, David Lorence, and Michael Kiehn. "Coprosma kawaikiniensis (Rubiaceae) a new species from the Dubautia-Sadleria shrubland-fernland community on Kaua‘i, Hawaiian Islands." PhytoKeys 60 (February 11, 2016): 21–32. http://dx.doi.org/10.3897/phytokeys.60.6406.

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32

Burrows, C. J. "Germination behaviour of seeds of the New Zealand woody speciesAscarina lucida,Coprosma grandifolia,Melicytus lanceolatus, andSolanum laciniatum." New Zealand Journal of Botany 34, no. 4 (December 1996): 509–15. http://dx.doi.org/10.1080/0028825x.1996.10410131.

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33

Klimaszewska, Krystyna. "Plant regeneration from petiole segments of some species in tissue culture." Acta Agrobotanica 34, no. 1 (2013): 5–28. http://dx.doi.org/10.5586/aa.1981.001.

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The regeneration ability of 21 plant species belonging to 14 families was tested. The method of tissue culture in vitro was applied, on basic MS medium with an addition of growth regulators from the auxin and cytokinin groups. From among the investigated plant groups <i>Peperomia scandens</i> and <i>Caladium</i> × <i>hortulanum</i> were capable of plant regeneration, <i>Passiilora coerulea</i> regenerated shoots, <i>Hedera helix, Begonia glabra, Coleus blumei, Fuchsia hybrida, Passiflora suberosa </i>and <i>Peperomia eburnea</i> formed callus and roots, <i>Kalanchoe blossfeldiana, Pelargonium grandiflorum, P. peltatum, P. radula, Coleus shirensis</i> and <i>Magnolia soulangeana</i> produced callus, <i>Philodendron scandens, Rhododendron smirnovii, Hibiscus rosa-sinensis, Coprosma baueri, Cestrum purpureum</i> and <i>Solanum rantonnetii</i> did not exhibit any regeneration reactions.
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34

Burrows, C. J. "Germination behaviour of the seeds of the New Zealand speciesAristotelia serrata, Coprosma robusta, Cordyline australis, Myrtus obcordata, andSchefflera digitata." New Zealand Journal of Botany 33, no. 2 (June 1995): 257–64. http://dx.doi.org/10.1080/0028825x.1995.10410488.

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35

James, T. K., A. A. Laurenson, E. C. Carney, and A. Rahman. "Nontarget plant damage from picloram and triclopyr used for climbing spindle berry control in regenerating native forests." New Zealand Plant Protection 62 (August 1, 2009): 416. http://dx.doi.org/10.30843/nzpp.2009.62.4873.

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Climbing spindle berry (Celastrus orbiculatus) is a deciduous liane climbing to 12 m It is spreading in Waikato particularly in hedgerows and native forest remnants Control has been by foliar spray with a herbicide mixture containing picloram This study investigated damage to surrounding nontarget native flora where climbing spindle berry was treated with herbicides containing picloram The most abundant native species in the plots included Podocarpus totara Blechnum blechnoides Asplenium bulbiferum Coprosma spathulata Carex sp Adiantum cunninghamii Pittosporum eugenioides Deparia petersenii and Lastreopsis glabella Picloram triclopyr (Tordon Brushkiller 100 g/litre picloram as the amine salt 300 g/litre triclopyr as the butoxyethyl ester) as a foliar spray was compared with picloram gel as a cut stump treatment Both the cut stump and foliar spray resulted in excellent control of climbing spindle berry The cut stump treatment resulted in little damage to adjacent vegetation The foliar spray was damaging to adjacent small nontarget plants especially the ferns The affected nontarget plants recovered within 6 months with no damage apparent on new growth This study coincided with a protracted drought and seedling recruitment was compromised; therefore it was difficult to obtain conclusive results about seedling emergence
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36

MARTIN, NICHOLAS A. "Revision of the whitefly genus, Asterochiton Maskell (Hemiptera: Aleyrodidae) from New Zealand, a study of intraspecific variation." Zootaxa 4859, no. 3 (October 7, 2020): 301–41. http://dx.doi.org/10.11646/zootaxa.4859.3.1.

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All the specimens of Asterochiton species (Hemiptera: Aleyrodidae) on slides in the New Zealand Arthropod Collection, Auckland, were examined. The study reveals that the genus is currently restricted to New Zealand and is redescribed here. Obvious generic characters are the sub-elliptical to sub-circular puparium with distinct invaginations at the thoracic and caudal pores. Seven species are described: Asterochiton asteliae sp. n. from Astelia trinervia (Asteliaceae), and A. arboreae sp. n., A. areolatae sp. n., A. foetidissimae sp. n., A. propinqua sp. n., A. rhamnoidis sp. n., and A. rotundifoliae sp. n. from small-leaved Coprosma spp. (Rubiaceae). There are now 12 named species of Asterochiton, but the Brazilian species, Asterochiton auricolor (Bondar, 1923), does not belong in the genus. Details of minute setae, previously overlooked in described species, are provided. The setae length was found to vary at specific positions. Two species infesting three species of Pittosporum (Pittosporaceae) were observed having long and short setae on the abdomen, sometimes varying within a population from a single tree/host. Asterochiton pittospori Dumbleton is therefore synonymized with A. simplex. Additionally, the location of some setae varied on the subdorsal/submarginal area within a puparium. Chaetotaxy for Asterochiton species is proposed. A key to the puparia of Asterochiton species is provided.
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37

Merrett, MF, and AW Robertson. "The efficacy of wind pollination in a small understory shrub (Coprosma spathulata) in native forest of the Waikato region, New Zealand." New Zealand Journal of Botany 50, no. 1 (March 2012): 37–49. http://dx.doi.org/10.1080/0028825x.2011.640337.

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38

Hotchkiss, Sara, and James O. Juvik. "A Late-Quaternary Pollen Record from Ka‘au Crater, O‘ahu, Hawai‘i." Quaternary Research 52, no. 1 (July 1999): 115–28. http://dx.doi.org/10.1006/qres.1999.2052.

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A pollen record from Ka‘au Crater, O‘ahu, Hawai‘i contains evidence for changes in vegetation and climate since about 28,000 14C yr B.P. Zone 1 (ca. 28,100–ca. 22,800 14C yr B.P.) has pollen of dry to mesic forest species, including Pipturus-type, Dodonaea viscosa, Acacia koa, Chenopodium oahuense, Claoxylon sandwicense, Myrsine, and Metrosideros-type. In zone 2 (ca. 22,800–ca. 16,200 14C yr B.P.) Myrsine and Coprosma increase, with herbs, fern allies, and Grammitidaceae suggesting open canopies. Zone 3 (ca. 16,200–ca. 9700 14C yr B.P.) has pollen of wet forest species, including Freycinetia arborea, abundant Pritchardia, and Metrosideros-type. Zone 4 (ca. 9700–ca. 7000 14C yr B.P.) is similar, with less Pritchardia and more Metrosideros-type.Climate reconstruction was based on modern climatic ranges of flowering plants and an index derived from abundance of pollen in surface samples. Both methods agree on a qualitative reconstruction, although the ages are poorly constrained: 28,000–25,000 14C yr B.P. cool and dry; 25,000–23,000 14C yr B.P. dry and warmer; 23,000–20,000 14C yr B.P. moderately dry with declining temperature; 20,000–16,000 14C yr B.P. moderately dry and cool; 16,000–9000 14C yr B.P. warm and wet; 9000–7000 14C yr B.P. warm and possibly drier. Lower precipitation at Ka‘au Crater during the late glacial period and last glacial maximum is consistent with the interpretation that the North Pacific subtropical anticyclone was south of its present position. The pollen-derived temperature index yields an estimate of 3°–5°C temperature depression during the last glacial maximum.
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39

Wangui, James Chege, James P. Millner, Paul R. Kenyon, Peter R. Tozer, Patrick C. H. Morel, and Sarah J. Pain. "In Vitro Fermentation of Browsable Native Shrubs in New Zealand." Plants 11, no. 16 (August 10, 2022): 2085. http://dx.doi.org/10.3390/plants11162085.

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Information on the nutritive value and in vitro fermentation characteristics of native shrubs in New Zealand is scant. This is despite their potential as alternatives to exotic trees and shrubs for supplementary fodder, and their mitigation of greenhouse gases and soil erosion on hill-country sheep and beef farms. The objectives of this study were to measure the in vitro fermentation gas production, predict the parameters of the in vitro fermentation kinetics, and estimate the in vitro fermentation of volatile fatty acids (VFA), microbial biomass (MBM), and greenhouse gases of four native shrubs (Coprosma robusta, Griselinia littoralis, Hoheria populnea, and Pittosporum crassifolium) and an exotic fodder tree species, Salix schwerinii. The total in vitro gas production was higher (p < 0.05) for the natives than for the S. schwerinii. A prediction using the single-pool model resulted in biologically incorrect negative in vitro total gas production from the immediately soluble fraction of the native shrubs. However, the dual pool model better predicted the in vitro total gas production and was in alignment with the measured in vitro fermentation end products. The in vitro VFA and greenhouse gas production from the fermentation of leaf and stem material was higher (p < 0.05), and the MBM lower (p < 0.05), for the native shrubs compared to the S. schwerinii. The lower in vitro total gas production, VFA, and greenhouse gases production and higher MBM of the S. schwerinii may be explained by the presence of condensed tannins (CT), although this was not measured and requires further study. In conclusion, the results from this study suggest that when consumed by ruminant livestock, browsable native shrubs can provide adequate energy and microbial protein, and that greenhouse-gas production from these species is within the ranges reported for typical New Zealand pastures.
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40

C. Smale, M., and R. O. Gardner. "Survival of Mount Eden Bush, an urban forest remnant in Auckland, New Zealand." Pacific Conservation Biology 5, no. 2 (1999): 83. http://dx.doi.org/10.1071/pc990083.

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Mount Eden Bush is the only reserved fragment of primary broadleaved forest on basaltic lava on the Auckland isthmus in northern New Zealand. An edaphic variant of northern coastal short forest, the reserved forest of 0.7 ha is approximately 1-2% of the estimated original <50 ha tract and contains 84% of the vascular species recorded in it. The canopy is dominated by Griselinia lucida, Litsea calicaris, and Pseudopanax lessonii, the subcanopy by Melicytus ramiflorus, and the understorey by Coprosma macrocarpa and Macropiper excelsum. A depauperate vascular flora compared with other basaltic lava forests in the district may result from long isolation of the original tract in a deforested landscape remote from seed sources. Low tree density, low basal area, and a strongly rupestral/xerophytic ground layer reflect the drought-prone lava substrate (mean boulder cover 38%). It has probably been dominated by the adventive trailing herb Tradescantia fluminensis for >60 years (mean cover 38%), which reduces abundance of woody native seedlings and cover of native ground layer herbaceous species. Over two-fifths of the vascular flora is now alien native (all planted) or adventive, the latter almost all garden escapes from the surrounding suburban matrix and including many of the most threatening weeds of urban Auckland. Despite widespread T. fluminensis, currently important canopy/subcanopy and understorey dominants appear to be replacing themselves. In the absence of intervention, however, indigenous species are likely to become less important in the canopy and adventive Ligustrum lucidum and Prunus serrulata more important; the latter two species are respectively the second and third commonest canopyforming species regenerating in gaps. Future extinction of some indigenous species with critically small populations cannot be ruled out.
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41

Johnston, P. R. "Validation of Moellerodiscus coprosmae." Mycotaxon 109, no. 1 (September 18, 2009): 437–38. http://dx.doi.org/10.5248/109.437.

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42

Weber, Roland W S., Abderrahim Madhour, Heidrun Anke, Adele Mucci, and Paolo Davoli. "2-Hydroxytorularhodin, a New Xanthophyll from the Red YeastSporobolomyces coprosmae." Helvetica Chimica Acta 88, no. 11 (November 2005): 2960–66. http://dx.doi.org/10.1002/hlca.200590239.

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43

Cooke, R. C., H. O. Safar, and S. N. Wood. "The coprome: another model system – abstract." Proceedings of the Royal Society of Edinburgh. Section B. Biological Sciences 94 (1988): 47. http://dx.doi.org/10.1017/s0269727000007107.

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The ability of Ascobolus crenulatus Karsten, Chaetomium bostrychodes Zopf and Sordaria macrospora Auersw. to produce biomass within, fruit upon, and degrade rabbit faeces was followed using semi-natural faecal resource units (copromes) (Wood & Cooke 1984, 1987). On these criteria the performance of the fungi was in the order C. bostrychodes > S. macrospora > A. crenulatus. Species mixtures produced only slightly higher degradation rates than those effected by single species. This implied competition for available nutrients which was also indicated by depressed fruiting of all species in species mixtures when compared with fruiting levels of each species grown individually. For single species the time of onset and subsequent fruiting level were determined by the time at which sufficient resources could be allocated to reproduction rather than simply to hyphal extension rates.
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44

Liefting, L. W., S. Veerakone, L. I. Ward, and G. R. G. Clover. "First Report of ‘Candidatus Phytoplasma australiense’ in Potato." Plant Disease 93, no. 9 (September 2009): 969. http://dx.doi.org/10.1094/pdis-93-9-0969a.

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In January of 2009, potato plants (Solanum tuberosum) from a commercial crop in the Waikato Region, New Zealand were observed to have symptoms of upward rolling and purpling of the leaves. The symptoms appeared similar to those of “zebra chip”, a disorder of potato recently found to be associated with ‘Candidatus Liberibacter solanacearum’ in New Zealand and the United States (4). Total DNA from the leaf midveins and tubers from one of the symptomatic plants was separately extracted with an InviMag Plant DNA Mini Kit (Invitek GmbH, Berlin, Germany) and a KingFisher mL workstation (Thermo Scientific, Waltham, MA). DNA extracted from leaf midveins and tubers tested negative for ‘Ca. L. solanacearum’ by nested-PCR using primer pair OA2/OI2c (4) followed by Lib16S01F/Lib16S01R (5′-TTCTACGGGATAACGCACGG-3′ and 5′-CGTCAGTATCAGGCCAGTGAG-3′), which amplifies a 580-bp region of the 16S rRNA gene. However, DNA extracted from the tuber tissue tested positive for phytoplasma by TaqMan real-time PCR (3). No phytoplasma was detected in the DNA extracted from leaf tissue. The 16S rRNA gene, 16S-23S rRNA intergenic spacer region, and part of the 23S rRNA gene of the phytoplasma were amplified with primers P1/P7 (1). The PCR product was cloned into the pCR 4-TOPO vector (Invitrogen, Carlsbad, CA) and sequenced (GenBank Accession No. FJ943262). BLAST analysis showed 100% identity to ‘Ca. Phytoplasma australiense’ (16SrXII, Stolbur group). A fragment of approximately 850-bp of the Tuf gene was also amplified (2) and sequenced directly (GenBank Accession No. FJ943263). BLAST analysis showed 100% identity to Tuf gene variant IX of ‘Ca. P. australiense’ (2). An additional 14 plants showing similar leaf symptoms and also production of aerial tubers were collected from seven different potato fields from the Auckland and Waikato regions. Total DNA from the leaf midveins, stem, and tubers were separately extracted from each of the plants. The samples were tested for phytoplasma by nested-PCR using primer pair R16F2/R16R2, followed by NGF/NGR (1), and tested for ‘Ca. L. solanacearum’ by nested-PCR as described above. Seven plants tested positive only for phytoplasma, three tested positive for only ‘Ca. L. solanacearum’, and four plants tested positive for both pathogens. The pathogens were most commonly detected in samples extracted from the stem with 9 and 5 of the 14 samples testing positive for phytoplasma and liberibacter, respectively. Six of each of the leaf and tuber samples tested positive for phytoplasma. Liberibacter was detected in one of the leaf samples and in four of the tuber samples. ‘Ca. P. australiense’ has only been reported from New Zealand and Australia. The only other known hosts of ‘Ca. P. australiense’ in New Zealand are strawberry and native plants belonging to the genera Cordyline, Coprosma, and Phormium (2). In Australia, ‘Ca. P. australiense’ is associated with Australian grapevine yellows and Papaya dieback (2). To our knowledge, this is the first report of ‘Ca. P. australiense’ infecting potato as well as the first report of phytoplasma and ‘Ca. L. solanacearum’ mixed infections in potato. References: (1) M. T. Andersen et al. Plant Pathol. 47:188, 1998. (2) M. T. Andersen et al. Phytopathology 96:838, 2006. (3) N. M. Christensen et al. Mol. Plant Microbe Interact. 17:1175, 2004. (4) L. W. Liefting et al. Plant Dis. 93:208, 2009.
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45

HAYASHI, Toshihiko. "The genus Coproica Rondani from Pakistan (Diptera, Sphaeroceridae)." Medical Entomology and Zoology 42, no. 3 (1991): 235–40. http://dx.doi.org/10.7601/mez.42.235.

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46

Li, Min, Zhaoyin Gao, Xiqiang Song, Qing Chen, Deqiang Gong, Junxia Mu, and Meijiao Hu. "First report of Pseudocercospora coprosmae causing leaf spot on Scaevola taccada in China." Journal of Plant Pathology 104, no. 1 (October 22, 2021): 407–8. http://dx.doi.org/10.1007/s42161-021-00966-3.

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47

HAYASHI, Toshihiko. "The genus Coproica Rondani (Diptera, Sphaeroceridae) from the Ryukyu Islands, Japan." Medical Entomology and Zoology 56, no. 3 (2005): 207–10. http://dx.doi.org/10.7601/mez.56.207.

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48

HAYASHI, Toshihiko. "New records of the genus Coproica Rondani (Diptera : Sphaeroceridae) from Japan." Medical Entomology and Zoology 46, no. 3 (1995): 229–33. http://dx.doi.org/10.7601/mez.46.229.

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49

Wheeler, Terry A., and John E. Swann. "Coproica Rondani, 1861 And Ischiolepta Lioy, 1864 (Insecta, Diptera): Proposed Conservation Of Usage By The Designation Of Limosina Acutangula Zetterstedt, 1847 As The Type Species Of Coproica." Bulletin of zoological nomenclature. 51 (1994): 316–19. http://dx.doi.org/10.5962/bhl.part.7234.

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50

HAYASHI, Toshihiko. "A new record of Coproica rohaceki Carles-Tolra (Diptera, Sphaeroceridae) from Taiwan." Medical Entomology and Zoology 58, no. 2 (2007): 105–6. http://dx.doi.org/10.7601/mez.58.105.

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