P1366
Diversification of the old world Salsoleae s.l. (Chenopodiaceae): Molecular phylogenetic analysis of nuclear and chloroplast data sets and a revised classificationPhylogeny and Biogeography of Dionysia (Primulaceae)Phylogeny of Opuntioideae (Cactaceae)Twinned Raphides of Calcium Oxalate in Grape (Vitis): Implications for Crystal Stability and FunctionSOURCES OF THE ARCTIC FLORA: ORIGINS OF ARCTIC SPECIES IN RANUNCULUS AND RELATED GENERAFacilitated Autogamy and Costs of Selfing in the Perennial HerbBulbine bulbosa(Asphodelaceae)The Evolution of Function in Plant Secondary MetabolitesA New Species ofLeclercqiaBanks, Bonamo et Grierson (Lycopsida) from the Middle Devonian of North Xinjiang, China, with a Possible Climbing HabitA Sticky Situation: Assessing Adaptations for Plant Carnivory in the Caryophyllales by Means of Stochastic Character MappingThe Phylogeny of Rosoideae (Rosaceae) Based on Sequences of the Internal Transcribed Spacers (ITS) of Nuclear Ribosomal DNA and thetrnL/FRegion of Chloroplast DNAThe Development of the Digestive Glands and Enzymes in the Pitchers of ThreeNepenthesSpecies:N. alata,N. tobaica, andN. ventricosa(Nepenthaceae)The Ancestral Ecology of Angiosperms: Emerging Perspectives from Extant Basal LineagesEvidence of Protocarnivorous Capabilities inGeranium viscosissimumandPotentilla argutaand Other Sticky PlantsHow Does the Inclusion of Fossil Data Change Our Conclusions about the Phylogenetic History of Euphyllophytes?Anatomically PreservedWilliamsonia(Williamsoniaceae): Evidence for Bennettitalean Reproduction in the Late Cretaceous of Western North AmericaFruits of Cornelian Cherries (Cornaceae:Cornussubg.Cornus) in the Paleocene and Eocene of the Northern HemisphereA New Species ofPinusSubgenusPinusSubsectionContortaefrom Pliocene Sediments of Ch'ijee's Bluff, Yukon Territory, CanadaTertiaryGinkgoOvulate Organs with Associated Leaves from North Dakota, U.S.A., and Their Evolutionary SignificanceNew Diversity among the Trochodendraceae from the Early/Middle Eocene Okanogan Highlands of British Columbia, Canada, and Northeastern Washington State, United StatesTrochodendronandNordenskioldia(Trochodendraceae) from the Middle Eocene of Washington State, U.S.APhylogeny of the Caryophyllales Sensu Lato: Revisiting Hypotheses on Pollination Biology and Perianth Differentiation in the Core CaryophyllalesPermineralized Ferns from the Middle Eocene Princeton Chert. I. Makotopteris princetonensis Gen. et Sp. Nov. (Athyriaceae).The Phylogenetic Affinities of Nothofagus (Nothofagaceae) Leaf Fossils based on Combined Molecular and Morphological Data.Supercooling Capacity Increases from Sea Level to Tree Line in the Hawaiian Tree Species Metrosideros polymorpha.Reconstruction of the Leaves of Two New Species of Pseudosmodingium (Anacardiaceae) from Oligocene Strata of Puebla, Mexico.Gibberellin (GA3) enhances cell wall invertase activity and mRNA levels in elongating dwarf pea (Pisum sativum) shoots.Morphology and Stomatal Function of Douglas Fir Needles Exposed to Climate Change: Elevated CO2 and Temperature.A New Species of Millerocaulis (Osmundaceae) from the Lower Cretaceous of California.Chaneya, a New Genus of Winged Fruit from the Tertiary of North America and Eastern Asia.Revision of Lyonothamnus A. Gray (Rosaceae) from the Neogene of Western North America.Evolutionary Lability of Symmetry in Early Floral Development.Polymerous Leaf Whorls in Vascular Plants: Developmental Morphology and Fuzziness of Organ Identities.Is The Barley Endosperm a Water Reservoir for the Embryo When Germinating Seeds Are Dried?Changes in ratio of soluble sugars and free amino nitrogen in the apical meristem during floral transition of tobacco.Floral Symmetry and Its Role in Plant-Pollinator Systems.The Functional Significance and Fitness Consequences of Heterophylly.Heteroblasty and the Evolution of Flowering Phenologies.Morphological Developmental Stability in Plants: Patterns and Causes.Developmental Instability as a Means of Assessing Stress in Plants: A Case Study Using Electromagnetic Fields and Soybeans.EVOLUTIONARY IMPLICATIONS OF SELF-COMPATIBILITY AND REPRODUCTIVE FITNESS IN THE APOMICTIC RANUNCULUS AURICOMUS POLYPLOID COMPLEX (RANUNCULACEAE).
P1433
Q21727732-F7E1FEE9-4C17-408B-90AC-E94D356494C4Q22262161-19B1BC32-2F22-487A-96B3-6CFF71534DB8Q22950954-646705c2-491e-bb1b-c63c-30de8a50e4fbQ28143333-30A74A5F-1638-4C9E-AF6D-4BA838B7CF22Q28751075-C90A7A8A-D067-4CE2-8125-421BACD1B094Q29030955-C9D887D4-EF04-417D-A9F0-CD6E34A1AB23Q29035578-824E30E7-803F-44FE-BAAF-6A12EBE100E9Q29036311-90410C3B-02C0-4388-BCDE-95FB2E7DF3D3Q29037568-AAAA6243-2363-4B15-8370-77BD430B5B3AQ29038606-1658E8E7-241F-471C-9DD7-9046C3D47570Q29041390-57D3962B-A49E-48F0-B8F3-89401CE03A3AQ29041467-ADC26115-245C-429C-B2A4-1095E4A378FBQ29306055-193861C8-2EBA-451C-B1C8-1B466D13F845Q29307592-968C5527-B915-40D9-9E6B-47CD0BBD44C5Q29398037-8CF18872-AD3D-4894-92DC-93AC8600FF12Q29544503-E7786A7D-9826-4DB8-B41B-18BEF8650FA5Q29997836-4689B2E7-7709-49A1-80A3-2E766986F585Q30040473-55A2DCEA-965E-4B1F-BD72-ABCA7F78AAE6Q30048113-3D1DD87B-9966-4534-A39D-F79FF53087E3Q30050255-DD82EE4A-DA6C-4AE9-9695-A7AD0EF967D8Q30051846-FADEBB0E-BA67-4B59-9984-99C00015B3E7Q30582077-DCF22E81-D3E1-4C62-A957-C426BCD69E7CQ30584658-5299AA8E-9A50-403A-A60F-34686136AA7CQ30596459-E6B53BEF-1BE1-4353-A3F8-C42A07817FBCQ30596461-D1D9AC0F-D612-44E2-AC66-671415C61AFAQ30709885-16ACD584-6335-4F85-A51C-5B34869FF163Q31466802-FE2C7EB5-1D8C-4F30-80AE-FFFE2DE43FE0Q31466827-DA779BBB-009F-4F3A-800B-A9FED67CB898Q31466855-3A4066F1-5914-466A-B1D5-4B4F97FCE81DQ31467535-FA2FD378-1826-4798-99BD-0148D608192CQ33334132-8E6E5DD5-E4E5-4E7A-BDF0-49777497573FQ33334136-C6472840-CC67-4B3B-9324-91C470E30193Q33334550-FBFE52F3-C62A-4AA2-9EA7-F11F7A07A635Q33336000-67A5A217-F525-42CF-AE68-AAA7EDCDCBCDQ33778971-A3564965-9412-41E9-B06D-E1F7CB583BE3Q33778977-F8982DCD-3BD6-4882-A63D-4BD7FD772301Q33778983-9D051C31-8384-492A-9199-4F777EFBB8BDQ33778988-554AC7A1-E53A-4922-B030-55DD3F94658CQ33778993-C5A08967-A179-493F-AE9F-697E3B3C2383Q33790143-E4EB084F-2E5D-4F06-BD9E-539E77DD77BA
P1433
description
journal
@en
revista científica
@es
rivista scientifica
@it
vědecký časopis
@cs
wetenschappelijk tijdschrift van University of Chicago Press
@nl
wissenschaftliche Zeitschrift
@de
مجلة
@ar
वैज्ञानिक पत्रिका
@hi
英语期刊
@zh
name
International Journal of Plant Sciences
@ast
International Journal of Plant Sciences
@da
International Journal of Plant Sciences
@de
International Journal of Plant Sciences
@en
International Journal of Plant Sciences
@es
International Journal of Plant Sciences
@fi
International Journal of Plant Sciences
@fr
International Journal of Plant Sciences
@it
International Journal of Plant Sciences
@nb
International Journal of Plant Sciences
@nl
type
label
International Journal of Plant Sciences
@ast
International Journal of Plant Sciences
@da
International Journal of Plant Sciences
@de
International Journal of Plant Sciences
@en
International Journal of Plant Sciences
@es
International Journal of Plant Sciences
@fi
International Journal of Plant Sciences
@fr
International Journal of Plant Sciences
@it
International Journal of Plant Sciences
@nb
International Journal of Plant Sciences
@nl
altLabel
Bot. Gaz.
@es
Botanical Bulletin
@es
Botanical Gazette
@es
Int. J. Pl. Sci.
@de
Int. J. Pl. Sci.
@en
Int. J. Pl. Sci.
@es
Int. J. Pl. Sci.
@nl
Int. J. Plant Sci.
@es
prefLabel
International Journal of Plant Sciences
@ast
International Journal of Plant Sciences
@da
International Journal of Plant Sciences
@de
International Journal of Plant Sciences
@en
International Journal of Plant Sciences
@es
International Journal of Plant Sciences
@fi
International Journal of Plant Sciences
@fr
International Journal of Plant Sciences
@it
International Journal of Plant Sciences
@nb
International Journal of Plant Sciences
@nl
P243
P3181
P4616
P646
P101
P1055
P1144
P1156
P1230
intejplanscie
P1250
P1277
P1365
P1476
International Journal of Plant Sciences
@en