Different traits determine introduction, naturalization and invasion success in woody plants: Proteaceae as a test case. by Desika Moodley, Sjirk Geerts, David M Richardson, John R U Wilson

“…The traits driving invasiveness of Proteaceae were similar to those for acacias and pines. …”
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Contributions of phenotypic integration, plasticity and genetic adaptation to adaptive capacity relating to drought in Banksia marginata (Proteaceae) by Osazee O. Oyanoghafo, Osazee O. Oyanoghafo, Adam D. Miller, Madeline Toomey, Collin W. Ahrens, Collin W. Ahrens, David T. Tissue, David T. Tissue, Paul D. Rymer

“…In this study, we assess the capacity of a functionally important plant species from south-eastern Australia (Banksia marginata, Proteaceae) to adapt to water-limited environments. …”
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Genetic Differentiation among Subspecies of <i>Banksia nivea</i> (Proteaceae) Associated with Expansion and Habitat Specialization by Jane Sampson, Margaret Byrne

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Whole Genome Shotgun Sequences for Microsatellite Discovery and Application in Cultivated and Wild <i>Macadamia</i> (Proteaceae) by Catherine J. Nock, Martin S. Elphinstone, Gary Ablett, Asuka Kawamata, Wayne Hancock, Craig M. Hardner, Graham J. King

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Pollination ecology of <i>Oreocallis grandiflora</i> (Proteaceae) at the northern and southern ends of its geographic range by Jenny Hazlehurst, Santiago Cardenas, Boris Tinoco, Jordan Karubian

“…We characterized the pollination ecology of the Andean tree Oreocallis grandiflora (Family: Proteaceae) at the northern and southern ends of its range in Ecuador and Peru in terms of flower morphology, nectar properties, pollinators and plant reproduction. …”
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Managing Genetic Diversity and Representation in <i>Banksia marginata</i> (Proteaceae) Seed Production Areas Used for Conservation and Restoration by Linda Broadhurst, David Bush, Jim Begley

“…<i>Banksia marginata</i> (Proteaceae) is a key restoration species in south-eastern Australia but is highly fragmented and declining across much of its range. …”
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Adenda y precisiones sobre la morfología polínica en Alvaradoa subovata (Simaroubaceae) y Roupala brasiliensis (Proteaceae) by Cecilia C. Xifreda, Andrea M. Sanso

“…Se dan a conocer observaciones con microscopio electrónico de transmisión (MET), que complementan los estudios previos realizados con microscopio electrónico de barrido (MEB) sobre la morfología polínica de Alvaradoa subovata Cronquist (Simaroubaceae) y Roupala brasiliensis Klotzch (Proteaceae) (Xifreda & Sanso, 1998). Se describe la estratificación de la exina y se comunican nuevas observaciones con MEB sobre el polen de estas dos especies arbóreas, con la finalidad de aclarar su morfología y dar precisión a la terminología descriptiva utilizada en Xifreda & Sanso (1998)…”
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Ecophysiological Performance of Proteaceae Species From Southern South America Growing on Substrates Derived From Young Volcanic Materials by M. Delgado, A. Zúñiga-Feest, A. Zúñiga-Feest, M. Reyes-Díaz, M. Reyes-Díaz, P. J. Barra, S. Ruiz, A. Bertin-Benavides, S. Valle, S. Valle, M. Pereira, H. Lambers

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Dispersión asimétrica de semillas de Embothrium coccineum (Proteaceae) en el bosque templado de Chiloé, Chile by Adriana E. Rovere, Andrea C. Premoli

“…Esto es particularmente relevante en el caso de especies pioneras como Embothrium coccineum (Proteaceae) que crece en ambientes perturbados de los bosques templados del sur de Sudamérica. …”
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Relationship of alien species continues in a foreign land: The case of Phytophthora and Australian Banksia (Proteaceae) in South African Fynbos by Axola Qongqo, Felix Nchu, Sjirk Geerts

“…To test this, we investigate whether the invasiveness of the Australian genus of Proteaceae, Banksia, in South Africa is determined by the alien and major invasive phytopathogen, Phytophthora cinnamomi. …”
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Does threatened species listing status predict climate change risk? A case study with Australian Persoonia (Proteaceae) species by Samantha E. Andres, Jeff R. Powell, Nathan C. Emery, Paul D. Rymer, Rachael V. Gallagher

“…We illustrate how exposure to climate change and sensitivity of species based on their traits can be combined to generate predictions of climate change risk in four species listed as threatened (under state and federal legislation) and four unlisted plant species from the endemic Australian genus Persoonia (Proteaceae). We develop distribution models for each species using two emissions scenarios and assess four traits and two range metrics that are recognized as limiting factors in four potential climate change responses (reproduction, movement capability, habitat specialization, and spatial coverage) to assess the sensitivity of these eight species to climate change. …”
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Unequal allocation between male versus female reproduction cannot explain extreme vegetative dimorphism in Aulax species (Cape Proteaceae) by Jeremy J. Midgley, Michael D. Cramer

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Complex bioclimatic and soil gradients shape leaf trait variation in Embothrium coccineum (Proteaceae) among austral forests in Patagonia Gradientes bioclimáticos y edáficos modelan la variación en caracteres foliares de Embothrium coccineum (Proteaceae) en los bosques australes de la Patagonia by CINTIA P SOUTO, ANDREA C PREMOLI, PETER B REICH

“…We identify patterns of leaf size and shape variation with environmental heterogeneity in one of the most widespread tree species within temperate South America: Embothrium coccineum (Proteaceae). We collected leaf specimens and composite soil samples from 35 populations between 38° and 55° S latitude in Patagonia, covering a wide range of mean annual precipitation (MAP) and mean annual temperature (MAT). …”
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ESTIMATIVAS DE PARÂMETROS GENÉTICOS PARA CRESCIMENTO EM PROGÊNIES DE DUAS PROCEDÊNCIAS DE Roupala montana var. brasiliensis (PROTEACEAE) by Fernanda Bortolanza Pereira, David Henry Boshier, Bruno César Rossini, Celso Luis Marino, Miguel Luís Menezes de Freitas, Edson Vidal Silva, Guilherme Ferreira Melchert, Jessyca Sperotto, Evandro Vagner Tambarussi

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Complete plastome sequence of Heliciopsis lobata (merr.) Sleum: a Chinese medicinal species in China by Lian-Lian Mao, Wen-Long Wang, Dan-Yang Chen, Zhi-Xin Zhu, Hua-Feng Wang

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Chromosome-Scale Assembly and Annotation of the Macadamia Genome (Macadamia integrifolia HAES 741) by Catherine J. Nock, Abdul Baten, Ramil Mauleon, Kirsty S. Langdon, Bruce Topp, Craig Hardner, Agnelo Furtado, Robert J. Henry, Graham J. King

Subjects: “…proteaceae…”
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Phenotypic similarity between fruits of Gevuina avellana (Proteaceae) and wasp-induced galls of Nothofagus dombeyi (Nothofagaceae) does not protect fruits from predation by rodents by Gabriela A.E. López-Colin, Carlos E. Valdivia, Carlos Morales-Paredes, Soraya Sade, Jaime R. Rau

“…ABSTRACT Fruits of Gevuina avellana (Proteaceae) seem to mimic wasp-induced galls of Nothofagus dombeyi (Nothofagaceae) to escape predation by rodents, which may change both spatially and temporarily. …”
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Photochemical efficiency of PSII and photoprotective pigments in seedlings and adults of two Proteaceae with different shade tolerance from the Chilean temperate rain forest Eficiencia fotoquímica del PSII y pigmentos fotoprotectores en plántulas y adultos de dos Proteáceas con diferente tolerancia a la sombra del bosque lluvioso templado chileno by MIREN ALBERDI, MARJORIE REYES-DÍAZ, RAFAEL ZÚÑIGA, SUSAN HESS, LEÓN A BRAVO, LUIS J CORCUERA

“…The seasonal variation in energy quenching parameters of photosystem II and photoprotective pigments were studied in seedlings and adults of two Proteaceae: a shade-intolerant species (Embotrium coccineum J.R. et G. …”
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Fungal phoenix rising from the ashes? by M.J. Wingfield, M.P.A. Coetzee, P.W. Crous, D. Six, B.D. Wingfield

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Antibacterial, Mutagenic Properties and Chemical Characterisation of Sugar Bush (<i>Protea caffra</i> Meisn.): A South African Native Shrub Species by McMaster Vambe, Adeyemi O. Aremu, Jude C. Chukwujekwu, Jiri Gruz, Andrea Luterová, Jeffrey F. Finnie, Johannes Van Staden

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