New chromosome numbers for rutaceae

HM Stace; JA Armstrong

doi:10.1071/sb9920501

New chromosome numbers for rutaceae

Australian Systematic Botany ◽

10.1071/sb9920501 ◽

1992 ◽

Vol 5 (4) ◽

pp. 501 ◽

Cited By ~ 4

Author(s):

HM Stace ◽

JA Armstrong

Keyword(s):

Chromosome Numbers ◽

Pollen Sterility ◽

Chromosome Counts ◽

Cytological Data ◽

Taxonomic Implications

Chromosome counts for 30 taxa, representing five genera, are reported for Rutaceae subfamily Rutoideae, mostly in the Australasian tribe Boronieae. We found n = 10 for Boronia algida which is previously unreported in the genus, and a sterile triploid taxon in Zieria. Generic chromosome numbers of n = 18 in Zieria, n = 16 in Phebalium and n = 14 in Eriostemon sens. lat. occur, while Boronia shows cytoevolution on n = 18, 11, 10, 9. Pollen sterility and possible apomixis is indicated in some species. Some taxonomic implications of cytological data in the tribe Boronieae are discussed.

NEW CHROMOSOME COUNTS IN OLD WORLD GESNERIACEAE: NUMBERS FOR SPECIES HITHERTO REGARDED ASCHIRITA, AND THEIR SYSTEMATIC AND EVOLUTIONARY SIGNIFICANCE

Edinburgh Journal of Botany ◽

10.1017/s0960428612000169 ◽

2012 ◽

Vol 69 (2) ◽

pp. 323-345 ◽

Cited By ~ 7

Author(s):

F. Christie ◽

S. Barber ◽

M. Möller

Keyword(s):

Chromosome Numbers ◽

Taxonomic Revision ◽

Basic Number ◽

Evolutionary Significance ◽

Chromosome Counts ◽

Old World ◽

Phylogenetic Studies ◽

Cytological Data ◽

Phylogenetic Data ◽

Primulina Tabacum

Chromosome numbers were determined in 23 accessions representing 21 species hitherto belonging toChirita(Gesneriaceae), a genus that has recently been remodelled and split into five different genera:Damrongia,Henckelia,Liebigia,MicrochiritaandPrimulina. The previously monotypicPrimulina tabacumwas also investigated. Counts for 19 species were new, two were confirmatory and two gave different numbers from previously published counts. The results here, together with previously published cytological data for the erstwhile genusChirita, were analysed in the light of the taxonomic revision of the genus and published phylogenetic data.Chiritawas originally highly heterogeneous in chromosome numbers, including seven different somatic numbers, 2n= 8, 18, 20, 28, 32, 34 and 36. Among the five remodelled genera,Henckeliawas found to be as equally heterogeneous as the erstwhileChirita,Microchiritaincluded only two chromosome numbers, 2n= 18 and 34, the three species ofDamrongiawere uniform with 2n= 18, while species belonging to the extendedPrimulinashowed only one basic number,x= 18, with 15 samples being diploid, and one being tetraploid. In the light of recent phylogenetic studies, polyploid as well as dysploid changes appear to have shaped the genomes of the newly defined generaHenckelia,Microchiritaand, to a lesser degree,Primulina.

A natural intergeneric hybrid of Gesneriaceae from Brazil

Phytotaxa ◽

10.11646/phytotaxa.497.2.2 ◽

2021 ◽

Vol 497 (2) ◽

pp. 79-96

Author(s):

ANDRÉA ONOFRE DE ARAUJO ◽

MAURO PEIXOTO ◽

CINTIA NEVES DE SOUZA ◽

EDUARDO CUSTÓDIO GASPARINO ◽

JULIANA TOLEDO FARIA ◽

...

Keyword(s):

Chromosome Numbers ◽

Pollen Morphology ◽

Pollen Grains ◽

Intergeneric Hybrid ◽

Morphological Characters ◽

Natural Hybrid ◽

Pollen Data ◽

Cytological Data ◽

High Viability ◽

Structural Abnormalities

A natural hybrid between Goyazia and Mandirola (Gloxiniinae, Gesneriaceae) from Cerrado (Brazil) is here described, supported by pollen morphology, cytological data and morphological characters. The microsporogenesis of Mandirola hirsuta and that of the hybrid were analyzed in order to evaluate the cytogenetic characteristics. The haploid chromosome numbers observed were n = 12 for M. hirsuta and n = 11, 13, 16 and 26 for the hybrid. Structural abnormalities (monads, dyads, triads and micronuclei) were observed at the final of the hybrid’s meiosis. High viability rates of the pollen were recorded for Goyazia and Mandirola (>90%) and low viability for the hybrid (34.7%). The pollen grains were acetolyzed, measured and photographed for pollen morphology analysis. Quantitative pollen data were analyzed through descriptive and multivariate statistics. The hybrid has intermediate pollen characteristics between G. petraea and M. hirsuta; it is more related to G. petraea by the measures of diameters and ectoapertures; it is more similar to M. hirsuta mainly regarding the microreticulum on the mesocolpium region. The hybrid and Mandirola share vegetative and flower size, while the colors of the hybrid are similar to Goyazia. Pollen morphology, cytological data and morphological characters brought clear evidence for the recognition of the intergeneric hybrid, which we named as Goydirola x punctata.

Chromosome numbers of Carex (Cyperaceae) and their taxonomic implications

PLoS ONE ◽

10.1371/journal.pone.0228353 ◽

2020 ◽

Vol 15 (2) ◽

pp. e0228353

Author(s):

Helena Więcław ◽

Anna Kalinka ◽

Jacob Koopman

Keyword(s):

Chromosome Numbers ◽

Taxonomic Implications

Chromosome numbers, meiotic behavior, and notes on tropical American grasses (Gramineae)

Canadian Journal of Botany ◽

10.1139/b74-042 ◽

1974 ◽

Vol 52 (2) ◽

pp. 317-328 ◽

Cited By ~ 26

Author(s):

Gerrit Davidse ◽

Richard W. Pohl

Keyword(s):

Chromosome Numbers ◽

Meiotic Behavior ◽

Chromosome Counts

Chromosome numbers and meiotic behavior are reported for 126 collections of grasses representing 50 genera and 111 species. First counts are given for the genera Leptothrium, n = 10, and Cryptochloa, 2n = 22 (somatic count). First chromosome counts are given for the following 25 species: Aristida recurvata, n = 11; Axonopus laxus, n = 20; Chloris mollis, n = 20; Chusquea longifolia, n = 20; Cryptochloa concinna, 2n = 22; Digitaria abyssinica, n = 18; Eragrostis airoides, n = 36; E. guianensis, n = 10; Eriochloa boxiana, n = 18; Gymnopogon foliosus, n = 10; Leptothrium rigidum, n = 10; Luziola pittieri, n = 12; L. spruceana, n = 24; Otachyrium inaequale, n = 10; Panicum cayennense, n = 27; P. chloroticiun, n = 18; P. schiffneri, n = 18; Pappophorum pappiferum, n = 30; Paspalum apiculatum, n = 10; P. arundinaceum, n = 30; P. contractum, n = 9; P. coryphaeum, n = 30; P. trachycoleon, n = 20; Setaria barbata, n = 27; and Trisetum foliosum, n = 28. Counts that differ from previously reported counts are given for the following 15 species: Axonopus chrysoblepharis, n = 10; Cenchrus brownii, n = 34; Digitaria horizontalis, n = 9, 27; Echinolaena gracilis, n = 10; Euclasta condylotricha, n = 10; Hyperthelia dissoluta, n = ca. 30; Ischaemum guianense, n = 18; Microchloa indica, n = 12; Paspalum candidum, n = 10; P. melanospermum, n = 20; P. prostratum, n = 10; Rhytachne rottboellioides, n = 16; Setaria paniculifera, n = 16; Sorghastrum incompletum, n = 20; and Thrasya petrosa, n = 30. Changes in nomenclature are indicated for Digitaria species whose chromosome numbers were reported in our earlier publications.

Breeding behavior and chromosome numbers among New Guinea and Java Impatiens species, cultivated varieties, and their interspecific hybrids

Canadian Journal of Botany ◽

10.1139/b74-117 ◽

1974 ◽

Vol 52 (5) ◽

pp. 923-925 ◽

Cited By ~ 1

Author(s):

Allan R. Beck ◽

Jack L. Weigle ◽

Eric W. Kruger

Keyword(s):

Chromosome Numbers ◽

Interspecific Hybrids ◽

New Guinea ◽

Chromosome Morphology ◽

Breeding Behavior ◽

Chromosome Counts

Impatiens crosses were made among the following: P.I. 349629 (Java), P.I. 349586 (New Guinea), I. Itolstii, and "Tangerine." All crosses were successful except those made with I. Itolstii. Chromosome counts were as follows: P.I. 349629 = 16, P.I. 349586 = 32, I. Itolstii = 16, and "Tangerine" = 8. Chromosome counts of the hybrids were midway between the respective parents. Cytological studies indicated a similarity in chromosome morphology and size among all parents except I. holslii. A new genome count of 4 is reported for the genus Impatiens indicating a ploidy series in which x = 4.

Chromosome numbers of 15 North American bumble bee species (Hymenoptera, Apidae, Bombini)

Canadian Journal of Genetics and Cytology ◽

10.1139/g83-004 ◽

1983 ◽

Vol 25 (1) ◽

pp. 26-29

Author(s):

Robin E. Owen

Keyword(s):

Chromosome Number ◽

North American ◽

Chromosome Numbers ◽

Bumble Bees ◽

Bumble Bee ◽

Morphological Divergence ◽

Chromosome Counts ◽

Monophyletic Origin ◽

The Social

Chromosome counts were obtained for 14 Bombus Latr. species (the social bumble bees) belonging to four subgenera and for one Psithyrus Lep. species (the social parasitic bumble bees). In Bombus the haploid numbers were consistent within each subgenus and there was variation between subgenera; the subgenera Bombus s.s. and Pyrobombus have n = 18, while Separatobombus and Cullumanobombus have n = 19. Thus considerable morphological divergence between subgenera is often, but not always, paralleled by divergence in chromosome number. Psithyrus ashtoni has n = 25, higher than all Bombus species yet examined. This provides support for the monophyletic origin of Psithyrus, but the high n is not expected if eusociality selects for increase in chromosome number.

Chromosome counts in Hymeneae L. and Guibourtia Benn. (Leguminosae, Caesalpinioideae) and its taxonomic implications

10.19146/pibic-2015-38084 ◽

2015 ◽

Author(s):

Eliana Regina Forni Martins ◽

Giulia Melilli Serbin

Keyword(s):

Chromosome Counts ◽

Taxonomic Implications

SOME CHROMOSOME NUMBERS OF GAREX SPECIES OF CANADA AND ALASKA

Canadian Journal of Botany ◽

10.1139/b64-133 ◽

1964 ◽

Vol 42 (10) ◽

pp. 1387-1391 ◽

Cited By ~ 6

Author(s):

R. J. Moore ◽

J. A. Calder

Keyword(s):

Chromosome Numbers ◽

Chromosome Counts

Chromosome counts of 36 taxa and two hybrids of Carex are presented: 18 are new, 11 verify previous counts, 5 differ by 2 from previous counts, and 2 differ more widely from reported counts. Taxonomic notes relating to a few species arc included.

Chromosome numbers, meiotic behavior, and notes on some grasses from Central America and the West Indies

Canadian Journal of Botany ◽

10.1139/b72-175 ◽

1972 ◽

Vol 50 (7) ◽

pp. 1441-1452 ◽

Cited By ~ 21

Author(s):

Gerrit Davidse ◽

Richard W. Pohl

Keyword(s):

Central America ◽

Chromosome Numbers ◽

West Indies ◽

Andropogon Gerardii ◽

Meiotic Behavior ◽

Chromosome Counts ◽

The West

Chromosome numbers and meiotic behavior are reported for 99 collections of grasses representing 47 genera and 88 species. First chromosome counts are reported for the following 20 species: Aristida laxa, n = 22; Chloris ekmanii, n = 20; Chusquea scandens, n = 20; Danthonia domingensis, n = 18; Eragrostis hypnoides, n = 10; E. prolifera, n = 20; Festuca mirabilis, n = 14; Leptochloa scabra, n = 30; Manisuris ramosa, n = 18; Paspalum carinatnm, n = 40; P. distortum, n = 10; Pharus glaber, n = 12; Raddia sympodica, 2n = 22; Raddiella nana, n = 10; Schizachyrium gracile, n = 20; Setaria crus-ardeae, n = 18; Thrasya paspaloides, n = 20; Trachypogon ligularis, n = 10; Trichachne laxa, n = 18; Tristachya avenacea, n = 24. The count for Raddiella nana represents a first generic report. Counts that differ from previous counts for the same taxon are reported for these 11 species: Andropogon gerardii, n = 40; Aristida orizabensis, n = 22; Eragrostis trichocolea, n = 30; Ichnanthus nemoralis, n = 10; Microchloa kunthii, n = 22; Olyra latifolia, n = 22; Panicum cyanescens, n = 27; Paspalum caespitosum, n = 10; P. millegrana, n = 20, 30; Schizachyrium hirtiflorum, n = 20; Trachypogon montufari, n = 30.

The cytology of Brachycome. I. The subgenus Eubrachycome: A general survey

Australian Journal of Botany ◽

10.1071/bt9700099 ◽

1970 ◽

Vol 18 (1) ◽

pp. 99 ◽

Cited By ~ 20

Author(s):

S Smith-White ◽

CR Carter ◽

HM Stace

Keyword(s):

Chromosome Number ◽

Chromosome Numbers ◽

Base Number ◽

Undescribed Species ◽

General Survey ◽

Chromosome Races ◽

Chromosomal Change ◽

Cytological Data ◽

Wide Range ◽

Annual Habit

Chromosome number determinations and cytological observations are reported for 37 recognized taxonomic species and varieties, and for a number of undescribed species and chromosome races in Eubrachycome. Additionally, chromosome numbers are reported for six species of Metabrachycome and two species of related genera. A wide range of numbers has been found. It is inferred that x = 9 is the primitive base number in the group. Eubrachycome has used various modes of chromosomal change, including polyploidy, amphidiploidy, decrease in base number, and the establishment of B. chromosomes. The present taxonomy of the group requires revision, taking into account cytological data. Primitive Eubrachycome was probably a mesic perennial. The evolution of desert species has involved reduction in chromosome number and the adoption of the annual habit, but other methods of desert adaptation have been available. Many species are chromosomally unstable, and may have been subject to catastrophic selection.