01785nas a2200193 4500008004100000245017800041210006900219260001200288300001200300490000700312520111000319653002101429653001401450653002201464653001101486653002201497100002401519856004801543 2020 eng d00aStudies in Andean Ocotea (Lauraceae) V. Species with unisexual flowers and sparsely appressed-pubescent or glabrous leaves without domatia occurring above 1000 m in altitude0 aStudies in Andean Ocotea Lauraceae V Species with unisexual flow c08/2020 a192-2300 v283 a
This is the fifth installment of a treatment of Ocotea Aubl. occurring above 1000-m altitude in the Andean countries of Venezuela, Colombia, Ecuador, Peru, and Bolivia. This part covers species with unisexual flowers lacking distinctive characters such as presence of domatia or erect or dense pubescence on leaves. Twenty-six species are treated, of which 12 are new to science. These are O. nidiae van der Werff from Venezuela; O. erugata van der Werff, O. gymnantha van der Werff, and O. lorda van der Werff from Colombia; O. ceronii van der Werff, O. depilis van der Werff, O. homeieri van der Werff, and O. pilosa van der Werff from Ecuador; and O. calcicola van der Werff, O. fulgida van der Werff, O. nana van der Werff, and O. tunquiensis van der Werff from Peru. Ocotea cernua (Nees) Mez is synonymized with O. leptobotra
(Ruiz & Pav.) Mez and O. longifolia Kunth is synonymized with O. aurantiodora (Ruiz & Pav.) Mez.
A new species of Lauraceae, Cryptocarya kaengkrachanensis M.Z. Zhang, Yahara & Tagane, from Kaeng Krachan National Park, Phetchaburi Province, southwestern Thailand, is described and illustrated. This species is morphologically most similar to C. amygdalina in that its leaves are pinnately veined, leathery, and apparently glabrous (but microscopically hairy) abaxially, twigs are yellowish brown hairy, and fruits are 1.36 to 1.85 times longer than width. However, C. kaengkrachanensis is distinguished from C. amygdalina in having the leaves of ovate and elliptic (vs. oblong-lanceolate) with leaf aspect ratio (length:width) from 1.38 to 2.28 (vs. 2.46–3.43), and ovoid fruits (vs. ellipsoid) with stalk distinctly swollen (vs. not or only slightly swollen). In addition, phylogenetic trees constructed based on internal transcribed spacer sequences (ITS) and genome-wide SNPs using MIG-seq showed that C. kaengkrachanensis is not sister to C. amygdalina and is distinct from all the other Cryptocarya species hitherto recognized in Thailand. Analysis including other species demonstrates that C. floribunda should be a synonym of C. amygdalina, but we recognize C. scortechinii as a distinct species.
10aCryptocarya10aflora10aLauraceae10aLaurales10anew species10ataxonomy10aThailand1 aZhang, Meng1 aYahara, Tetsukazu1 aTagane, Shuichiro1 aRueangruea, Sukid1 aSuddee, Somran1 aMoritsuka, Etsuko1 aSuyama, Yoshihisa uhttps://lauraceae.myspecies.info/node/2041301993nas a2200253 4500008004100000245008400041210006900125260001200194300001200206490000800218520127200226653002001498653001301518653002201531653001401553653002701567653001801594653001401612100001801626700001201644700001901656700001601675856004801691 2010 eng d00aPhylogeny of the Southeast Asian endemic genus Neocinnamomum H. Liu (Lauraceae)0 aPhylogeny of the Southeast Asian endemic genus Neocinnamomum H L c10/2010 a173-1840 v2903 aA phylogenetic analysis of Neocinnamomum H. Liu and related genera was conducted using psbA–trnH, trnK cpDNA regions, and the ITS nrDNA segment. Neocinnamomum was confirmed to be monophyletic, and an evolutionary series of inflorescence development within the genus was recognized. The compound thyrse seen in N. caudatum is reduced to the few- to many-flowered condensed inflorescences with a poorly defined branching system seen in most species and ultimately to the 1-flowered inflorescence seen in N. atjehense. Consensus network analysis (CNA) suggested that long-branch attraction is responsible for the observed close relationship between Neocinnamomum and Cassytha L. in a combined analysis of the complete data. In contrast, the sister relationship of Neocinnamomum and Caryodaphnopsis seen in the Bayesian analyses of the partial combined matrix was supported by CNA and is also supported by morphology and wood and bark anatomy. The close similarity of the compound thyrse of less derived Neocinnamomum species to the thyrsoid inflorescences of some Caryodaphnopsis species is also seen as strong support for their affinity.
10aCaryodaphnopsis10aCassytha10aConsensus network10aLauraceae10aLong-branch attraction10aNeocinnamomum10aPhylogeny1 aWang, Zhi-hua1 aLi, Jie1 aConran, J., G.1 aLi, Hsi-Wen uhttps://lauraceae.myspecies.info/node/2040701751nas a2200229 4500008004100000245007600041210006900117260001200186300001200198490000700210520110500217653001701322653002301339653001201362653001901374653001401393653001401407100001801421700001801439700001601457856004801473 2014 eng d00aHigh diversity of Lauraceae from the Oligocene of Ningming, South China0 aHigh diversity of Lauraceae from the Oligocene of Ningming South c09/2014 a336-3560 v233 aLauraceae is among the largest and floristically most important woody plant families in subtropical and tropical zones. However, the Cenozoic fossil records of Lauraceae are mostly from mid-latitude regions. Here we described eight lauraceous species from the Oligocene of Ningming, Guangxi, South China on the basis of leaf compressions with cuticular structure, providing new evidence for high diversity of Lauraceae in the low latitude region of the northern hemisphere during the late Paleogene. The extant genera to which the Ningming Oligocene fossils are possibly closely related include Cinnamomum, Neolitsea, Litsea, Alseodaphne, Laurus, and Beilschmiedia. All of these extant genera except Laurus still exist in Guangxi today, whereas Laurus is currently distributed in the Mediterranean and adjacent regions. A cladistic analysis based on leaf architectural and leaf cuticular characters for Paleogene Lauraceae species in the world indicated a possible relationship between European and East Asian Paleogene species.
10aBiogeography10aCladistic analysis10acuticle10aHigh diversity10aLauraceae10aOligocene1 aLe Shi, Gong-1 aXie, Zhi-Ming1 aLi, Hao-Min uhttps://lauraceae.myspecies.info/node/2040602068nas a2200241 4500008004100000245014000041210006900181520131500250653001401565653001101579653001401590653001701604653001901621653002201640100001501662700001601677700001701693700001501710700001801725700001801743700001701761856004801778 2017 eng d00aNew fossil leaves and fruits of Lauraceae from the Middle Miocene of Fujian, southeastern China differentiated using a cluster analysis0 aNew fossil leaves and fruits of Lauraceae from the Middle Miocen3 aThe fossil record of Lauraceae can be traced back to the Early Cretaceous of eastern Asia based on fossil flowers. Here, we refer a number of new occurrences of leaf and fruit fossils of Lauraceae from the Middle Miocene of Zhangpu, Fujian, China, to seven species. These data provide evidence supporting the fact that a diverse subtropical, or tropical, Lauraceae-dominated evergreen forest surrounded this region 15 million years ago (Mya). The Lauraceae fossils presented in this paper provide evidence for the evolution of this group as well as new materials that enable the study of the Fujian Province Neogene flora. The fossils described in this paper fill in the gaps in studies about Lauraceae pollen in the Middle Miocene from Fotan, Fujian, China. In addition, these fossils also enrich the Middle Miocene fossil records of Lauraceae in eastern Asia, especially improving the study of the macrostructures and reproductive organs of fossil Lauraceae from southern China. The similarity between fossil and modern fruits shows that during the Middle Miocene the fruit morphological of Lauraceae have changed very little. We also identify families where the fossils we report belong to their closest relatives and can be used to reconstruct the paleoenvironment of Fujian in the Middle Miocene.
10adiversity10aFujian10aLauraceae10aLaurophyllum10aMiddle Miocene10apaleoenvironments1 aWang, Zixi1 aSun, Fankai1 aWang, Jidong1 aYan, Defei1 aDong, Junling1 aSun, Mingxuan1 aSun, Bainian uhttps://lauraceae.myspecies.info/node/2040502297nas a2200241 4500008004100000245010900041210006900150520156400219653002301783653002401806653002401830653001401854653001401868100001701882700001901899700001401918700001801932700001601950700001401966700001401980700001301994856004802007 2017 eng d00aThe complete chloroplast genome of Cinnamomum camphora and its comparison with related Lauraceae species0 acomplete chloroplast genome of Cinnamomum camphora and its compa3 aCinnamomum camphora, a member of the Lauraceae family, is a valuable aromatic and timber tree that is indigenous to the south of China and Japan. All parts of Cinnamomum camphora have secretory cells containing different volatile chemical compounds that are utilized as herbal medicines and essential oils. Here, we reported the complete sequencing of the chloroplast genome of Cinnamomum camphora using illumina technology. The chloroplast genome of Cinnamomum camphora is 152,570 bp in length and characterized by a relatively conserved quadripartite structure containing a large single copy region of 93,705 bp, a small single copy region of 19,093 bp and two inverted repeat (IR) regions of 19,886 bp. Overall, the genome contained 123 coding regions, of which 15 were repeated in the IR regions. An analysis of chloroplast sequence divergence revealed that the small single copy region was highly variable among the different genera in the Lauraceae family. A total of 40 repeat structures and 83 simple sequence repeats were detected in both the coding and non-coding regions. A phylogenetic analysis indicated that Calycanthus is most closely related to Lauraceae, both being members of Laurales, which forms a sister group to Magnoliids. The complete sequence of the chloroplast of Cinnamomum camphora will aid in in-depth taxonomical studies of the Lauraceae family in the future. The genetic sequence information will also have valuable applications for chloroplast genetic engineering.
10aChloroplast genome10aCinnamomum camphora10aIllumina sequencing10aLauraceae10aPhylogeny1 aChen, Caihui1 aZheng, Yongjie1 aLiu, Sian1 aZhong, Yongda1 aWu, Yanfang1 aLi, Jiang1 aXu, Li-An1 aXu, Meng uhttps://lauraceae.myspecies.info/node/2040402263nas a2200217 4500008004100000245013700041210006900178520154300247653002501790653002401815653001401839653001101853653001901864653002201883100002001905700001901925700001701944700001701961700001901978856004801997 2017 eng d00aPlastome evolution in the sole hemiparasitic genus laurel dodder (Cassytha) and insights into the plastid phylogenomics of Lauraceae0 aPlastome evolution in the sole hemiparasitic genus laurel dodder3 aTo date, little is known about the evolution of plastid genomes (plastomes) in Lauraceae. As one of the top five largest families in tropical forests, the Lauraceae contain many species that are important ecologically and economically. Lauraceous species also provide wonderfulmaterials to study the evolutionary trajectory in response to parasitism because they contain both nonparasitic and parasitic species. This study compared the plastomes of nine Lauraceous species, including the sole hemiparasitic and herbaceous genus Cassytha (laurel dodder; here represented by Cassytha filiformis).We found differential contractions of the canonical inverted repeat (IR), resulting in two IR types present in Lauraceae. These two IR types reinforce Cryptocaryeae and Neocinnamomum–Perseeae–Laureae as two separate clades. Our data reveal several traits unique to Cas. filiformis, including loss of IRs, loss or pseudogenization of 11 ndh and rpl23 genes, richness of repeats, and accelerated rates of nucleotide substitutions in protein-coding genes. Although Cas. filiformis is low in chlorophyll content, our analysis based on dN/dS ratios suggests that both its plastid house-keeping and photosynthetic genes are under strong selective constraints. Hence, we propose that short generation time and herbaceous lifestyle rather than reduced photosynthetic ability drive the accelerated rates of nucleotide substitutions in Cas. filiformis.
10agenome rearrangement10ahemiparasitic plant10aLauraceae10alaurel10aplastid genome10asubstitution rate1 aWu, Chung-Shien1 aWang, Ting-Jen1 aWu, Chia-Wen1 aWang, Ya-Nan1 aChaw, Shu-Miaw uhttps://lauraceae.myspecies.info/node/2040200813nas a2200169 4500008004100000245006000041210005600101260001200157300001000169490000700179520034100186653001800527653001200545653001400557100002400571856004800595 2019 eng d00aA new species of Chlorocardium (Lauraceae) from Ecuador0 anew species of Chlorocardium Lauraceae from Ecuador c05/2019 a81-860 v273 aChlorocardium esmeraldense van der Werff, a new species from the Pacific coast of Ecuador, is described and illustrated. The circumscription of Chlorocardium Rohwer, H. G. Richt. & van der Werff is widened. The genus now includes three species, one with tetramerous flowers and two with trimerous flowers.
10aChlorocardium10aEcuador10aLauraceae1 avan der Werff, Henk uhttps://lauraceae.myspecies.info/node/2039902678nas a2200289 4500008004100000245011500041210006900156300001200225490000700237520182400244653001502068653003202083653000802115653001402123653000902137653000802146653002102154653001602175653001602191653002102207653002202228100002102250700002302271700002902294700001702323856004802340 2019 eng d00aIncongruence of morphological determinations and DNA barcode sequences: a case study in Cinnamomum (Lauraceae)0 aIncongruence of morphological determinations and DNA barcode seq a383-4000 v493 aIn the course of molecular systematic studies of Lauraceae we received a sample of a plant cultivated under the name Cinnamomum porrectum in the Botanical Garden München-Nymphenburg. Preliminary determinations, both morphologically based on the Flora of China (Li & al. 2008) and by chloroplast sequences (psbA-trnH spacer, trnK intron including matK gene, trnL intron, trnL-trnF spacer and trnQ-rps16 spacer) obtained by Sanger sequencing suggested that it was C. camphora, still the plant looked different from other individuals of C. camphora cultivated in the botanical gardens of Berlin, Hamburg, Mainz, Munich and Oldenburg. Attempts to sequence the more informative nuclear internal transcribed spacer repeatedly led to mixed signals. We therefore used Illumina sequencing on a set of pre-amplified molecular markers (ITS, trnK 3′ and 5′ intron, trnL intron, and the intergenic spacers psbA-trnH, trnL-trnF, as well as parts of the trnQ-rps16 spacer), and downloaded available sequences of C. camphora and C. parthenoxylon from GenBank for comparison. Considerable differences were found among these sequences, but the haplotype groups do not coincide with the current species determinations. Particularly the internal transcribed spacer sequences are rather diverse, suggesting possible misidentifications, contaminations, and/or a common gene pool that is larger than anticipated. Concerning the plant in question, our results suggest that it may be a hybrid, with C. camphora as the maternal and another species, possibly C. parthenoxylon, as the paternal parent.
10aCinnamomum10ainterspecific hybridization10aITS10aLauraceae10amatK10aNGS10apsbA-trnH spacer10atrnK intron10atrnL intron10atrnL-trnF spacer10atrnQ-rps16 spacer1 aRohwer, Jens, G.1 aTrofimov, Dimitrij1 aMayland-Quellhorst, Eike1 aAlbach, Dirk uhttps://lauraceae.myspecies.info/node/2039701495nas a2200193 4500008004100000245006500041210006300106260001200169300001200181490000700193520096100200653001101161653001501172653001201187653001401199653001601213100002401229856004801253 2019 eng d00aA new species and new combinations of Neotropical Cinnamomum0 anew species and new combinations of Neotropical Cinnamomum c06/2019 a137-1390 v273 aA new species of Cinnamomum Schaeff. from the Pacific coast of Ecuador is described and discussed. Cinnamomum latifolium van der Werff is distinctive for its broad triplinerved leaves with canaliculate petioles, densely pubescent young twigs, and 2-locular inner stamens. In addition, six species recently described in Aiouea Aubl. should, in this author’s opinion, be placed within Cinnamomum. The new combinations C.ampullaceum (Lorea-Hern.) van der Werff, C. hirsutum (Lorea-Hern.) van der Werff, C. paratriplinerve (Lorea-Hern.) van der Werff, C. pseudoglaziovii (Lorea-Hern.) van der Werff, C. rubrinervium (Lorea-Hern.) van derWerff, and C. uninervium (Lorea-Hern.) van der Werff are accordingly published. The author citation of the recently transferred C. baitelloanum van der Werff & P.L.R. Moraes to Aiouea is rejected.
10aAiouea10aCinnamomum10aEcuador10aLauraceae10anew species1 avan der Werff, Henk uhttps://lauraceae.myspecies.info/node/2039402125nas a2200217 4500008004100000245011600041210006900157260001200226300000900238490001000247520144700257653002501704653002801729653001401757653001201771653003001783100001801813700001501831700001301846856004801859 2019 eng d00aPlastome sequences help to improve the systematic position of trinerved Lindera species in the family Lauraceae0 aPlastome sequences help to improve the systematic position of tr c10/2019 a1-170 ve76623 aLindera is a genus (c. 100 spp.) of trees belonging to the “core Laureae” group in the family Lauraceae. It is often confused with Litsea, and the systematics of the genus is unclear. Here, total 10 complete plastomes from nine trinerved Lindera species and another species Lindera obtusiloba (sect. Palminerviae Meissn.) were sequenced. Nine highly variable regions, trnH-GUG/psbA, psbM/trnD-GUC, petA/psbL, ndhF, trnL-UAG/ndhD, and ycf1, were identified among the 10 Lindera species. In addition, a total of 1,836 mutation events including six micro-inversions, 156 indels, and 1,674 substitutions, were also summarized. Comparing our sequences with other available plastomes in the “core Laureae,” we put forward that six hypervariable loci, trnH-GUG/psbA, ndhF, ndhF/rpl32, trl32/trnL-UAG, ndhD, and ycf1, could potentially be used as plastid barcode candidates for species identification. Further phylogenetic analyses were conducted using 49 complete Lauraceae plastomes. The results supported a close relationship among trinerved Lindera species and suggested an improved trinerved group comprising species of trinerved Lindera species and Iteadaphne caudate.
10aComparative genomics10aComplete plastid genome10aLauraceae10aLindera10aPhylogenetic relationship1 aTian, Xiangyu1 aYe, Junwei1 aSong, Yu uhttps://lauraceae.myspecies.info/node/2038602108nas a2200205 4500008004100000245009000041210006900131300001200200490000700212520148900219653001101708653001701719653002201736653001401758653002001772100002201792700002101814700001901835856004801854 2009 eng d00aAnatomy and development of fruits of Lauraceae from the Middle Eocene Princeton Chert0 aAnatomy and development of fruits of Lauraceae from the Middle E a637-6510 v963 aInvestigations of the Middle Eocene Princeton Chert reveal evidence for the connection of lauraceous fl owers to fruits through a developmental series. Youngest fruits are found with attached fl oral remnants. Later stages show receptacle enlargement, fruit wall thickening, and the development of abundant sclereid clusters. Mature fruits are borne on a shallow receptacle and have an endocarp palisade layer of radially elongate cells with stellate outlines, an inner mesocarp layer of radiately arranged sclereid clusters, and a fl eshy outer mesocarp layer containing numerous idioblasts with contents. Each mature fruit bears a single seed retaining the outer integument with an innermost radially elongate transfusion cell layer. Mature seeds contain a cellular embryo bearing idioblasts. Fruits are distinguishable from previously described anatomically preserved fossil taxa. This study represents the only documented developmental reconstruction of fossil fruits of Lauraceae and that self-pruning evolved prior to the Eocene. Anatomical modifi cations over the developmental sequence indicate that different stages of maturity preserved together, may be erroneously identifi ed as several taxa at a fossil locality. Fossil morphotypes typically underestimate species number, but this study suggests that the number of inferred species based on fruit types may be infl ated for Lauraceae, potentially exaggerating the tropical interpretation of the paleoenvironment.
10aEocene10afossil fruit10afruit development10aLauraceae10aPrinceton Chert1 aLittle, Stefan, A1 aStockey, Ruth, A1 aPenner, Bonnie uhttps://lauraceae.myspecies.info/node/2038401300nas a2200217 4500008004100000245009200041210006900133260001200202300000900214490000700223520065600230653001100886653002600897653002000923653001500943653001400958653001900972100002300991700002001014856004801034 2017 eng d00aA new species of Cinnamomum (Lauraceae) from the Bladen Nature Reserve, southern Belize0 anew species of Cinnamomum Lauraceae from the Bladen Nature Reser c06/2017 a1-100 v813 aA new species in the Lauraceae, Cinnamomum bladenense S.W. Brewer & G.L. Stott, is described from the Bladen Nature Reserve in southern Belize. The new species is similar to Cinnamomum brenesii (Standl.) Kosterm., from which it differs by its much smaller, narrowly-campanulate flowers, its inner tepals glabrous abaxially, its shorter petioles, its minutely sericeous younger twigs, and its abaxial leaf surfaces not glaucous and with prominent secondary venation. A description, preliminary conservation assessment, and photographs of the species as well as a key to and notes on the Cinnamomum of Belize are provided.
10aBelize10aBladen Nature Reserve10aCentral America10aCinnamomum10aLauraceae10aMaya Mountains1 aBrewer, Steven, W.1 aStott, Gail, L. uhttps://lauraceae.myspecies.info/node/2035702587nas a2200301 4500008004100000245014200041210006900183300001000252490000700262520164000269653003001909653001701939653002901956653002101985653001402006653002402020100002102044700001302065700002402078700001602102700002102118700002202139700001802161700002702179700001902206700001202225856004802237 2016 eng d00aOrigins and evolution of cinnamon and camphor: A phylogenetic and historical biogeographical analysis of the Cinnamomum group (Lauraceae)0 aOrigins and evolution of cinnamon and camphor A phylogenetic and a33-440 v963 aTropical and subtropical amphi-Pacific disjunction is among the most fascinating distribution patterns, but received little attention. Here we use the fossil-rich Cinnamomum group, a primarily tropical and sub-tropical Asian lineage with some species distributed in Neotropics, Australasia and Africa to shed light upon this disjunction pattern. Phylogenetic and biogeographic analyses were carried out using sequences of three nuclear loci from 94 Cinnamomum group and 13 outgroup samples. Results show that although there are three clades within a monophyletic Cinnamomum group, Cinnamomum and previously recognized subdivisions within this genus were all rejected as natural groups. The Cinnamomum group appears to have originated in the widespread boreotropical paleoflora of Laurasia during the early Eocene (ca. 55 Ma). The formation and breakup of the boreotropics seems to have then played a key role in the formation of intercontinental disjunctions within the Cinnamomum group. The first cooling interval (50–48 Ma) in the late early Eocene resulted in a floristic discontinuity between Eurasia and North America causing the tropical and subtropical amphi-Pacific disjunction. The second cooling interval in the mid-Eocene (42–38 Ma) resulted in the fragmentation of the boreotropics within Eurasia, leading to an African–Asian disjunction. Multiple dispersal events from North into South America occurred from the early Eocene to late Miocene and a single migration event from Asia into Australia appears to have occurred in the early Miocene.
10aAmphi-Pacific disjunction10aBiogeography10aBoreotropical paleoflora10aCinnamomum group10aLauraceae10amolecular phylogeny1 aHuang, Jian-Feng1 aLi, Lang1 avan der Werff, Henk1 aLi, Hsi-Wen1 aRohwer, Jens, G.1 aCrayn, Darren, M.1 aMeng, Hong-Hu1 avan der Merwe, Marlien1 aConran, J., G.1 aLi, Jie uhttps://lauraceae.myspecies.info/node/2032000944nas a2200217 4500008004100000245007600041210006900117300001100186490000700197520031300204653001700517653001800534653001500552653001600567653001400583653002000597653001300617653002700630100002100657856004800678 2008 eng d00aNine new taxa and a new combination in Lauraceae from India and Myanmar0 aNine new taxa and a new combination in Lauraceae from India and a89-1060 v153 aNine new taxa belonging to the genera Actinodaphne Nees, Beilschmiedia Nees, Cinnamomum Schaeff. and Cryptocarya R. Br. of the family Lauraceae are described and
illustrated from India and Myanmar. One new combination of the family has also been appended.
A revision of the Andean species of Ocotea Aubl. (Lauraceae) with hermaphrodite flowers and the lower leaf surface completely covered by the pubescence is presented. A key to the 22 recognized species is provided. Fourteen species are described as new: O. comata van der Werff, O. micrantha van der Werff, and O. stenophylla van der Werff from Bolivia; O.gentryi van der Werff, O. pedicellata van der Werff, and O. umbrina van der Werff from Colombia; O. loxensis van der Werff, O. palaciosii van der Werff, O. pautensis van der Werff from Ecuador; O. andina van der Werff, O.glabriflora van der Werff, O. pajonalis van der Werff, and O. trematifera van der Werff from Peru; and finally, the single species O. guaramacalensis van der Werff from Venezuela. Lectotypification is provided for the name O. jelskii Mez.
10aAndes10aBolivia10aColombia10aEcuador10aIUCN Red List10aLauraceae10aOcotea10aPeru10aVenezuela1 avan der Werff, Henk uhttps://lauraceae.myspecies.info/node/1977801086nas a2200205 4500008004100000245013200041210006900173260001200242300001100254490000700265520045800272653001000730653001300740653001200753653001800765653001400783653001100797100002400808856004800832 2012 eng d00aStudies in Andean Ocotea (Lauraceae). I. Species with hermaphrodite flowers and fistulose twigs occurring above 1000 m altitude0 aStudies in Andean Ocotea Lauraceae I Species with hermaphrodite c07/2012 a96-1080 v223 aA key to and descriptions of the seven species of Ocotea Aubl. (Lauraceae) with bisexual flowers and fistulose twigs occurring in the Andes are presented. Of the seven species, five are newly described: O. beekmanii van der Werff, O. cuatrecasasii van der Werff, both from Colombia, O. fistulosa van der Werff from Ecuador, O. magnifrons van der Werff described from Ecuador and also in Colombia, and O. obovatifolia van der Werff from Ecuador.
10aAndes10aColombia10aEcuador10aIUCN Red List10aLauraceae10aOcotea1 avan der Werff, Henk uhttps://lauraceae.myspecies.info/node/1977700850nas a2200181 4500008004100000245007600041210006900117260001200186300001200198490000700210520032700217653001800544653001400562653001400576653000900590100002100599856004800620 2012 eng d00aNectandra ovatocaudata, a new species of Lauraceae from Cajamarca, Peru0 aNectandra ovatocaudata a new species of Lauraceae from Cajamarca c11/2012 a220-2220 v223 aA new species of Nectandra Rol. ex Rottb. (Lauraceae) from Cajamarca, Peru, is described and illustrated. Nectandra ovatocaudata Rohwer appears to be related to N. amazonum Nees, but differs in its leaf shape, in having a receptacle that is densely pubescent inside, and in its habitat.
10aIUCN Red List10aLauraceae10aNectandra10aPeru1 aRohwer, Jens, G. uhttps://lauraceae.myspecies.info/node/1975600623nas a2200217 4500008004100000022001400041245005100055210004700106260001200153300000900165490001000174653001100184653001600195653002100211653001400232653001700246653001300263653001700276100002700293856008500320 2008 eng d a1819-015400aThe Lauraceous collections of Friedrich Sellow0 aLauraceous collections of Friedrich Sellow c04/2008 a1-670 v6 (1)10aBrazil10acollections10aFriedrich Sellow10aLauraceae10anomenclature10ataxonomy10atypification1 aMoraes, Pedro, L.R. de uhttps://lauraceae.myspecies.info/content/lauraceous-collections-friedrich-sellow00607nam a2200157 4500008004100000020001800041245007900059210007200138260002400210300001000234490000700244653001400251100002700265700002900292856012800321 2007 eng d a85-85003-31-600aFlora dos estados de Goiás e Tocantins (Coleção Rizzo): Lauraceae Juss.0 aFlora dos estados de Goiás e Tocantins Coleção Rizzo Lauraceae J aGoiâniabPRPPG/UFG a7-1540 v3310aLauraceae1 aMoraes, Pedro, L.R. de1 ade Oliveira, J, M Bonaro uhttps://lauraceae.myspecies.info/content/flora-dos-estados-de-goi%C3%A1s-e-tocantins-cole%C3%A7%C3%A3o-rizzo-lauraceae-juss00842nas a2200205 4500008004100000245016700041210006900208260001200277300001400289490000700303653002500310653002700335653001400362653002500376653001900401653002100420100002700441700003000468856013800498 1995 eng d00aSeed dispersal and germination of Cryptocarya Moschata nees & martius ex nees, Ocotea catharinensis mez and Endlicheria paniculata (Sprengel) MacBride (Lauraceae)0 aSeed dispersal and germination of Cryptocarya Moschata nees mart c12/1995 a1119-11290 v3810aCryptocarya moschata10aEndlicheria paniculata10aLauraceae10aOcotea catharinensis10aseed dispersal10aseed germination1 aMoraes, Pedro, L.R. de1 aPaoli, Adelita, Aparecida uhttps://lauraceae.myspecies.info/content/seed-dispersal-and-germination-cryptocarya-moschata-nees-martius-ex-nees-ocotea-catharinensi00694nas a2200193 4500008004100000245006900041210006900110300001000179490001100189653002600200653002700226653001200253653001400265653001800279653002400297100002700321700002600348856012600374 1999 eng d00aEpiderme e padrão de venação foliar de espécies de Lauraceae0 aEpiderme e padrão de venação foliar de espécies de Lauraceae a87-970 v13 (1)10aCrayptocarya moschata10aEndlicheria paniculata10aepiderm10aLauraceae10aleaf venation10aoctoea catharinesis1 aMoraes, Pedro, L.R. de1 aPaoli, A., A. Sartori uhttps://lauraceae.myspecies.info/content/epiderme-e-padr%C3%A3o-de-vena%C3%A7%C3%A3o-foliar-de-esp%C3%A9cies-de-lauraceae00687nas a2200181 4500008004100000022001400041245013000055210006900185300001200254490000700266653001800273653001100291653001400302653001400316653001600330100002100346856013800367 2001 eng d a1346-756500aNotes on Beilschmiedia (Lauraceae) of southeast Asia1: Checklist of the Bornean Species with the Description of a new species0 aNotes on Beilschmiedia Lauraceae of southeast Asia1 Checklist of a103-1130 v5210aBeilschmiedia10aBorneo10achecklist10aLauraceae10anew species1 aNishida, Sachiko uhttps://lauraceae.myspecies.info/content/notes-beilschmiedia-lauraceae-southeast-asia1-checklist-bornean-species-description-new-spec00755nas a2200241 4500008004100000245008200041210006900123300001000192490000700202653001100209653001100220653002900231653001100260653001100271653001600282653001800298653001400316653002300330653001000353653001200363100002500375856011300400 1996 eng d00aNew species of Rhodostemonodaphne (Lauraceae) from northeastern South America0 aNew species of Rhodostemonodaphne Lauraceae from northeastern So a45-660 v4810aAiouea10aAmapá10aandroecium configuration10aBrazil10adioecy10aEndlicheria10aFrench Guiana10aLauraceae10aRhodostemonodaphne10aSaül10aSurinam1 aMadriñán, Santiago uhttps://lauraceae.myspecies.info/content/new-species-rhodostemonodaphne-lauraceae-northeastern-south-america00529nas a2200169 4500008004100000245005400041210004500095260003500140653001200175653001400187653001100201653001700212653001500229653001300244100001900257856008300276 2000 eng d00aOn the delimitation of Laurus species (Lauraceae)0 adelimitation of Laurus species Lauraceae aTanta University, Tanta, Egypt10aAnatomy10aLauraceae10aLaurus10aLeaf cuticle10aMorphology10aTaxanomy1 aLoutfy, M.H.A. uhttps://lauraceae.myspecies.info/content/delimitation-laurus-species-lauraceae00580nam a2200181 4500008004100000020001800041245002200059210002200081260007200103300000700175490000700182653001400189100002400203700003600227700002100263700003800284856007600322 1997 eng d a968-7863-12-900aFamilia Lauraceae0 aFamilia Lauraceae aPátzcuarobInstituto de Ecología A.C., Centro Regional del Bajío a580 v5610aLauraceae1 avan der Werff, Henk1 aLorea-Hernández, Francisco, G.1 aRzedowski, Jerzy1 ade Rzedowski, Graciela, Calderón uhttp://www1.inecol.edu.mx/publicaciones/resumeness/FLOBA/Flora%2056.pdf00551nas a2200181 4500008004100000245007800041210006900119300001200188490000700200653001200207653001100219653000800230653001400238653001200252653002600264100002400290856005500314 2001 eng d00aAn annotated key to the genera of Lauraceae in the Flora Malesiana region0 aannotated key to the genera of Lauraceae in the Flora Malesiana a125-1400 v4610aflowers10agenera10akey10aLauraceae10aMalesia10avegetative characters1 avan der Werff, Henk uhttp://www.repository.naturalis.nl/document/56553700572nas a2200181 4500008004100000245007600041210006900117260001200186300001200198490000700210653002000217653001400237653001600251653001100267653002000278100002400298856006800322 2002 eng d00aA synopsis of Ocotea (Lauraceae) in Central America and Southern Mexico0 asynopsis of Ocotea Lauraceae in Central America and Southern Mex c10/2002 a429-4510 v8910aCentral America10aLauraceae10aMesoamerica10aOcotea10asouthern Mexico1 avan der Werff, Henk uhttp://www.biodiversitylibrary.org/item/87374#page/439/mode/1up00521nas a2200145 4500008004100000245007300041210006900114300001200183490000700195653002000202653001400222653001100236100002400247856010400271 2001 eng d00aNew taxa and combinations in Ocotea (Lauraceae) from Central America0 aNew taxa and combinations in Ocotea Lauraceae from Central Ameri a501-5110 v1110aCentral America10aLauraceae10aOcotea1 avan der Werff, Henk uhttps://lauraceae.myspecies.info/content/new-taxa-and-combinations-ocotea-lauraceae-central-america00600nas a2200169 4500008004100000245008700041210006900128300000900197490000700206653001700213653001600230653001400246653001500260653001600275100002400291856011500315 2006 eng d00aA revision of the Malagasy endemic genus Aspidostemon Rohwer & Richter (Lauraceae)0 arevision of the Malagasy endemic genus Aspidostemon Rohwer Richt a7-440 v2810aAspidostemon10aCryptocarya10aLauraceae10aMadagascar10anew species1 avan der Werff, Henk uhttps://lauraceae.myspecies.info/content/revision-malagasy-endemic-genus-aspidostemon-rohwer-richter-lauraceae01685nam a2200385 4500008004100000024007600041245004600117210004600163260010500209300000800314490000600322520052200328653002000850653002100870653001900891653001900910653001800929653001900947653001700966653001600983653001800999653001501017653001801032653002001050653001801070653001701088653001601105653001701121653000801138653001401146653001401160653001901174100002701193856007901220 2007 eng d aISSN 1784-1283 (hard copy), ISSN 1784-1291 (on-line pdf), D/2007/0339/400aTaxonomy of Cryptocarya species of Brazil0 aTaxonomy of Cryptocarya species of Brazil aBrusselsbBelgian Focal Point to the Global Taxonomy Initiative, The Belgian Development Cooperation a1910 v33 aThe Brazilian species of Cryptocarya are revised. The systematic treatment of its species is provided, and its typification, synonym, general descriptions for morphology, distribution, and ecological features are discussed. As a result, 13 species were recognised with five newly described: Cryptocarya botelhensis P.L.R. de Moraes, C. riedeliana P.L.R. de Moraes, C. sellowiana P.L.R. de Moraes, C. velloziana P.L.R. de Moraes, and C. wiedensis P.L.R. de Moraes. Illustrations and a key to the species are presented.10aBrazilian flora10aC. aschersoniana10aC. botelhensis10aC. citriformis10aC. guianensis10aC. mandioccana10aC. micrantha10aC. moschata10aC. riedeliana10aC. saligna10aC. sellowiana10aC. subcorymbosa10aC. velloziana10aC. wiedensis10aCryptocarya10adescriptions10akey10aLauraceae10anew taxon10aplant taxonomy1 aMoraes, Pedro, L.R. de uhttp://www.abctaxa.be/volumes/volume-3-taxonomy-cryptocarya-species-brazil00891nas a2200193 4500008004100000245007800041210006900119260001200188300001200200490000700212520034200219653001100561653001600572653001400588653001700602653001300619100002700632856003800659 2005 eng d00aLectotypification of names of Brazilian species of Cryptocarya(Lauraceae)0 aLectotypification of names of Brazilian species of CryptocaryaLa c08/2005 a789-7950 v543 aIn a forthcoming systematic treatment of Brazilian species of Cryptocarya, almost all known herbarium collections were examined, and as a result, eight validly published species names are recognized. Types are cited for accepted names and synonyms. Several lectotypes and an epitype are newly designated. One new combination is proposed.10aBrazil10aCryptocarya10aLauraceae10anomenclature10ataxonomy1 aMoraes, Pedro, L.R. de uhttp://www.jstor.org/pss/25065435