This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Agnihotri, P., Jena, S., Husain, D., and Husain, T. (2014). Perspective of the genus Delphinium Linnaeus (Ranunculaceae) in India. Pleione, 8, 344–352.AgnihotriP.JenaS.HusainD.HusainT.2014Perspective of the genus Delphinium Linnaeus (Ranunculaceae) in IndiaPleione8344352Search in Google Scholar
Bedinger, P. A., Broz, A. K., Tovar-Mendez, A., and Mcclure, B. (2017). Pollen-pistil interactions and their role in mate selection. Plant Physiology, 173, 79.BedingerP. A.BrozA. K.Tovar-MendezA.McclureB.2017Pollen-pistil interactions and their role in mate selectionPlant Physiology1737910.1104/pp.16.01286Search in Google Scholar
Bosch, M., Simon, J., Molero, J., and Blanché, C. (2001). Breeding systems in tribe Delphinieae (Ranunculaceae) in the western Mediterranean area. Flora, 196, 101–113.BoschM.SimonJ.MoleroJ.BlanchéC.2001Breeding systems in tribe Delphinieae (Ranunculaceae) in the western Mediterranean areaFlora19610111310.1016/S0367-2530(17)30025-7Search in Google Scholar
Briggs, H. M., Anderson, L. M., Atalla, L. M., Delva, A. M., Dobbs, E. K., and Brosi, B. J. (2016). Heterospecific pollen deposition in Delphinium barbeyi: linking stigmatic pollen loads to reproductive output in the field. Annals of Botany 117, 341–347.BriggsH. M.AndersonL. M.AtallaL. M.DelvaA. M.DobbsE. K.BrosiB. J.2016Heterospecific pollen deposition in Delphinium barbeyi: linking stigmatic pollen loads to reproductive output in the fieldAnnals of Botany11734134710.1093/aob/mcv175Search in Google Scholar
Chai, L., Ge, X., Biswas, M. K., Xu, Q., and Deng, X. (2011). Self-sterility in the mutant ‘Zigui shatian’ pummelo (Citrus grandis Osbeck) is due to abnormal post-zygotic embryo development and not self-incompatibility. Plant Cell, Tissue and Organ Culture, 104, 1–11.ChaiL.GeX.BiswasM. K.XuQ.DengX.2011Self-sterility in the mutant ‘Zigui shatian’ pummelo (Citrus grandis Osbeck) is due to abnormal post-zygotic embryo development and not self-incompatibilityPlant Cell, Tissue and Organ Culture10411110.1007/s11240-010-9793-6Search in Google Scholar
Chen, F. Z., Chen, Q. H., and Wang, F. P. (2011). Diterpenoid alkaloids from Delphinium yunnanense. Helvetica Chimica Acta, 94, 254–260.ChenF. Z.ChenQ. H.WangF. P.2011Diterpenoid alkaloids from Delphinium yunnanenseHelvetica Chimica Acta9425426010.1002/hlca.201000171Search in Google Scholar
Chong, W., Weili, H. E., Wei, Z., and Jiajun, L. (2018). Fluorescence observation of pollen tube growth and embryo culture from distant hybridization between asiatic and oriental lily cultivars. Northern Horticulture, 10, 88–96.ChongW.WeiliH. E.WeiZ.JiajunL.2018Fluorescence observation of pollen tube growth and embryo culture from distant hybridization between asiatic and oriental lily cultivarsNorthern Horticulture108896Search in Google Scholar
Dai, S. J., Qi, J. X., Duan, C. R., Wang, Y. P., Chen, P., Li, Q., Hao, Y. B., and Leng, P. (2014). Abnormal development of pollen and embryo sacs contributes to poor fruit set in walnut (Juglans hopeiensis). Journal of Horticultural Science and Biotechnology, 89, 273–278.DaiS. J.QiJ. X.DuanC. R.WangY. P.ChenP.LiQ.HaoY. B.LengP.2014Abnormal development of pollen and embryo sacs contributes to poor fruit set in walnut (Juglans hopeiensis)Journal of Horticultural Science and Biotechnology8927327810.1080/14620316.2014.11513079Search in Google Scholar
Deng, Y., Sun, X., Gu, C., Jia, X., Liang, L., and Su, J. (2017). Identification of pre-fertilization reproductive barriers and the underlying cytological mechanism in crosses among three petal-types of Jasminum sambac and their relevance to phylogenetic relationships. PLoS ONE, 12, e0176026, doi: 10.1371/journal.pone.0176026.DengY.SunX.GuC.JiaX.LiangL.SuJ.2017Identification of pre-fertilization reproductive barriers and the underlying cytological mechanism in crosses among three petal-types of Jasminum sambac and their relevance to phylogenetic relationshipsPLoS ONE12e017602610.1371/journal.pone.0176026539521528419158Open DOISearch in Google Scholar
Dumas, C., and Knox, R. B. (1983). Callose and determination of pistil viability and incompatibility. Theoretical and Applied Genetics, 67, 1–10.DumasC.KnoxR. B.1983Callose and determination of pistil viability and incompatibilityTheoretical and Applied Genetics6711010.1007/BF0030391424258474Search in Google Scholar
Elliott, S. E., and Irwin, R. E. (2009). Effects of flowering plant density on pollinator visitation, pollen receipt, and seed production in Delphinium barbeyi (Ranunculaceae). American Journal of Botany, 96, 912–919.ElliottS. E.IrwinR. E.2009Effects of flowering plant density on pollinator visitation, pollen receipt, and seed production in Delphinium barbeyi (Ranunculaceae)American Journal of Botany9691291910.3732/ajb.080026021628244Search in Google Scholar
Guan, W., and Li, S. (2002). Ornamental germplasm resources of genus Delphinium in Yunnan. Subtropical Plant Science, 31, 61–64.GuanW.LiS.2002Ornamental germplasm resources of genus Delphinium in YunnanSubtropical Plant Science316164Search in Google Scholar
He, G., Hu, F., Ming, J., Liu, C., and Yuan, S. (2017). Pollen viability and stigma receptivity in Lilium during anthesis. Euphytica, 213, 231, doi: 10.1007/s10681-017-2019-9.HeG.HuF.MingJ.LiuC.YuanS.2017Pollen viability and stigma receptivity in Lilium during anthesisEuphytica21323110.1007/s10681-017-2019-9Open DOISearch in Google Scholar
Henrich, T., and Kalbe, M. (2016). The role of prezygotic isolation mechanisms in the divergence of two parasite species. BMC Evolutionary Biology, 16, 245, doi: 10.1186/s12862-016-0799-5.HenrichT.KalbeM.2016The role of prezygotic isolation mechanisms in the divergence of two parasite speciesBMC Evolutionary Biology1624510.1186/s12862-016-0799-5510335327829374Open DOISearch in Google Scholar
Heslop-Harrison, J. (1982). Pollen-stigma interaction and cross-incompatibility in the grasses. Science, 215(4538), 1358–1364.Heslop-HarrisonJ.1982Pollen-stigma interaction and cross-incompatibility in the grassesScience21545381358136410.1126/science.215.4538.1358Search in Google Scholar
Honda, K., Tsutsui, K., and Hosokawa, K. (1999). Analysis of the flower pigments of some Delphinium species and their interspecific hybrids produced via ovule culture. Scientia Horticulturae, 82, 125–134.HondaK.TsutsuiK.HosokawaK.1999Analysis of the flower pigments of some Delphinium species and their interspecific hybrids produced via ovule cultureScientia Horticulturae8212513410.1016/S0304-4238(99)00039-4Search in Google Scholar
Legro, R. A. H. (1961). Species hybrids in Delphinium. Euphytica, 10, 1–23.LegroR. A. H.1961Species hybrids in DelphiniumEuphytica1012310.1007/BF00037200Search in Google Scholar
Lewis, H., Epling, C., Mehlquist, G. A. L., and Wyckoff, C. G. (1951). Chromosome numbers of Californian Delphiniums and their geographical occurrence. Annals of the Missouri Botanical Garden, 38, 101–117.LewisH.EplingC.MehlquistG. A. L.WyckoffC. G.1951Chromosome numbers of Californian Delphiniums and their geographical occurrenceAnnals of the Missouri Botanical Garden3810111710.2307/2394432Search in Google Scholar
Li, T., Liu, X., Li, Z., Ma, H., Wan, Y., Liu, X., and Fu, L. (2018). Study on reproductive biology of Rhododendron longipedicellatum: A newly discovered and special threatened plant surviving in limestone habitat in Southeast Yunnan, China. Frontiers in Plant Science, 9, 33, doi: 10.3389/fpls.2018.00033.LiT.LiuX.LiZ.MaH.WanY.LiuX.FuL.2018Study on reproductive biology of Rhododendron longipedicellatum: A newly discovered and special threatened plant surviving in limestone habitat in Southeast Yunnan, ChinaFrontiers in Plant Science93310.3389/fpls.2018.00033579778229445383Open DOISearch in Google Scholar
Lin, C.-Z., Zhao, Z.-X., Xie, S.-M., Mao, J.-H., Zhu, C.-C., Li, X.-H., Bairi, Z.-D., Kangsa, S.-Q., Dun, Z., and Xiong, T.-Q. (2014). Diterpenoid alkaloids and flavonoids from Delphinium trichophorum. Phytochemistry, 97, 88–95.LinC.-Z.ZhaoZ.-X.XieS.-M.MaoJ.-H.ZhuC.-C.LiX.-H.BairiZ.-D.KangsaS.-Q.DunZ.XiongT.-Q.2014Diterpenoid alkaloids and flavonoids from Delphinium trichophorumPhytochemistry97889510.1016/j.phytochem.2013.10.01124256579Search in Google Scholar
Macior, L. W. (1975). The pollination ecology of Delphinium tricorne (Ranunculaceae). American Journal of Botany, 62, 1009–1016.MaciorL. W.1975The pollination ecology of Delphinium tricorne (Ranunculaceae)American Journal of Botany621009101610.1002/j.1537-2197.1975.tb11765.xSearch in Google Scholar
Malyutin, N. (2001). The system of the genus Delphinium (Ranunculaceae). Botanicheskiy zhurnal [Botanical Journal], 86, 120–130.MalyutinN.2001The system of the genus Delphinium (Ranunculaceae)Botanicheskiy zhurnal [Botanical Journal]86120130Search in Google Scholar
Mehlquist, G. A. L., Blodget, C. O., and Bruscia, L. (1943). Colchicine induced tetraploidy in Delphinium cardinale. Journal Heredity, 34(6), 187–192.MehlquistG. A. L.BlodgetC. O.BrusciaL.1943Colchicine induced tetraploidy in Delphinium cardinaleJournal Heredity34618719210.1093/oxfordjournals.jhered.a105281Search in Google Scholar
Orellana, M. R., López-Pujol, J., Blanché, C., Rovira, A. M., and Bosch, M. (2009). Genetic diversity in Delphinium staphisagria (Ranunculaceae), a rare Mediterranean dysploid larkspur with medicinal uses. Genetica, 135, 221–232.OrellanaM. R.López-PujolJ.BlanchéC.RoviraA. M.BoschM.2009Genetic diversity in Delphinium staphisagria (Ranunculaceae), a rare Mediterranean dysploid larkspur with medicinal usesGenetica13522123210.1007/s10709-008-9271-918504529Search in Google Scholar
Pease, J. B., Guerrero, R. F., Sherman, N. A., Hahn, M. W., and Moyle, L. C. (2016). Molecular mechanisms of postmating prezygotic reproductive isolation uncovered by transcriptome analysis. Molecular Ecology, 25, 2592–2608.PeaseJ. B.GuerreroR. F.ShermanN. A.HahnM. W.MoyleL. C.2016Molecular mechanisms of postmating prezygotic reproductive isolation uncovered by transcriptome analysisMolecular Ecology252592260810.1111/mec.1367927136303Search in Google Scholar
Powell, E., and Jones, C. (1983). Floral mutualism in Lupinus benthamii (Fabaceae) and Delphinium parryi (Ranunculaceae). In C. E. Jones and R. J. Little (Eds), Handbook of Experimental Pollination Biology (pp. 310–329). New York: Van Nostrand Reinhold.PowellE.JonesC.1983Floral mutualism in Lupinus benthamii (Fabaceae) and Delphinium parryi (Ranunculaceae)InJonesC. E.LittleR. J.(Eds),Handbook of Experimental Pollination Biology310329New YorkVan Nostrand ReinholdSearch in Google Scholar
Price, M., and Waser, N. (1979). Pollen dispersal and optimal outcrossing in Delphinium nelsoni. Nature, 277, 294–297.PriceM.WaserN.1979Pollen dispersal and optimal outcrossing in Delphinium nelsoniNature27729429710.1038/277294a0Search in Google Scholar
Qian, W. (2012). Study of morphological characteristics and germination traits of Delphinium chefoense franch seeds. Journal of Anhui Agricultural Sciences, 40, 9236–9238.QianW.2012Study of morphological characteristics and germination traits of Delphinium chefoense franch seedsJournal of Anhui Agricultural Sciences4092369238Search in Google Scholar
Rodriguez-Riano, T., and Dafni, A. (2000). A new procedure to asses pollen viability. Sexual Plant Reproduction, 12, 241–244.Rodriguez-RianoT.DafniA.2000A new procedure to asses pollen viabilitySexual Plant Reproduction1224124410.1007/s004970050008Search in Google Scholar
Royal Horticultural Society. (1949). A tentative check-list of Delphinium names (1–112). London, UK: Royal Horticultural Society.Royal Horticultural Society1949A tentative check-list of Delphinium names1112London, UKRoyal Horticultural SocietySearch in Google Scholar
Samuelson, A. A. (1957). Wild Delphiniums and their hybrids. London, UK: Delph. Soc. Year Book.SamuelsonA. A.1957Wild Delphiniums and their hybridsLondon, UKDelph. Soc. Year BookSearch in Google Scholar
Sun, H. Q., Shi, G. Y., Ran, B., Zhang, L., and Jia, X. X. (2019). Pollen viability, stigma receptivity and breeding system of Lanzhou Lily. Journal of Desert Research, 39, 62–69.SunH. Q.ShiG. Y.RanB.ZhangL.JiaX. X.2019Pollen viability, stigma receptivity and breeding system of Lanzhou LilyJournal of Desert Research396269Search in Google Scholar
Tang, Q. Y., and Zhang, C. X. (2013). Data Processing System (DPS) software with experimental design, statistical analysis and data mining developed for use in entomological research. Insect Science, 20, 254–260.TangQ. Y.ZhangC. X.2013Data Processing System (DPS) software with experimental design, statistical analysis and data mining developed for use in entomological researchInsect Science2025426010.1111/j.1744-7917.2012.01519.x23955865Search in Google Scholar
Tjebbes, K. (2010). The chromosomes of three Delphinium species. Hereditas, 10, 160–164.TjebbesK.2010The chromosomes of three Delphinium speciesHereditas1016016410.1111/j.1601-5223.1927.tb02468.xSearch in Google Scholar
Varney, D. M. (1979). Reproductive biology of four species of Delphinium endemic, to the Wenatchee Mountains. USA: University of Washington.VarneyD. M.1979Reproductive biology of four species of Delphinium endemic, to the Wenatchee MountainsUSAUniversity of WashingtonSearch in Google Scholar
Wang, W., and Warnock, M. J. (2001). Delphinium Linnaeus. In Z. Wu and P. H. Raven (Eds.). Flora of China 6 (pp. 223–237). Beijing/St. Louis: Science Press/Missouri Botanical Garden.WangW.WarnockM. J.2001Delphinium LinnaeusInWuZ.RavenP. H.(Eds.).Flora of China 6223237Beijing/St. LouisScience Press/Missouri Botanical GardenSearch in Google Scholar
Wegulo, S. N. and Vilchez, M. (2008). Evaluation of Delphinium cultivars for resistance to powdery mildew. HortTechnology, 18, 407–409.WeguloS. N.VilchezM.2008Evaluation of Delphinium cultivars for resistance to powdery mildewHortTechnology1840740910.21273/HORTTECH.18.3.407Search in Google Scholar
Williams, C. F. (2007). Effects of floral display size and biparental inbreeding on outcrossing rates in Delphinium barbeyi (Ranunculaceae). American Journal of Botany, 94, 1696–1705.WilliamsC. F.2007Effects of floral display size and biparental inbreeding on outcrossing rates in Delphinium barbeyi (Ranunculaceae)American Journal of Botany941696170510.3732/ajb.94.10.169621636366Search in Google Scholar
Williams, C. F., Ruvinsky, J., Scott, P. E., and Hews, D. K. (2001). Pollination, breeding system, and genetic structure in two sympatric Delphinium (Ranunculaceae) species. American Journal of Botany, 88, 1623–1633.WilliamsC. F.RuvinskyJ.ScottP. E.HewsD. K.2001Pollination, breeding system, and genetic structure in two sympatric Delphinium (Ranunculaceae) speciesAmerican Journal of Botany881623163310.2307/3558407Search in Google Scholar
Yuan, Q. (2006). The genus Delphinium L. from the Hengduan Mountains region in Southwestern China: Taxonomy and cytology. PhD Dissertation, Chinese Academy of Sciences, Beijing, China.YuanQ.2006The genus Delphinium L. from the Hengduan Mountains region in Southwestern China: Taxonomy and cytologyPhD Dissertation,Chinese Academy of SciencesBeijing, ChinaSearch in Google Scholar
Yuan, Q., and Yang, Q.-E. (2008). Low incidence of polyploids and high uniformity of karyotypes displayed by Delphinium (Ranunculaceae) in the Hengduan Mountains region of Southwest China. Botanical Journal of the Linnean Society, 158, 172–188.YuanQ.YangQ.-E.2008Low incidence of polyploids and high uniformity of karyotypes displayed by Delphinium (Ranunculaceae) in the Hengduan Mountains region of Southwest ChinaBotanical Journal of the Linnean Society15817218810.1111/j.1095-8339.2008.00849.xSearch in Google Scholar
Yuan, Q., and Yang, Q.-E. (2019). Taxonomic studies on the genus Delphinium (Ranunculaceae) from China (XXI): The identities of D. breviscaposum and D. filibracteolum from northwestern Yunnan. Phytotaxa, 420, 185–197.YuanQ.YangQ.-E.2019Taxonomic studies on the genus Delphinium (Ranunculaceae) from China (XXI): The identities of D. breviscaposum and D. filibracteolum from northwestern YunnanPhytotaxa42018519710.11646/phytotaxa.420.2.5Search in Google Scholar
Zeng, Y. X., Hu, C. Y., Lu, Y. G., Li, J. Q., and Liu, X. D. (2010). Diversity of abnormal embryo sacs in indica/japonica hybrids in rice demonstrated by confocal microscopy of ovaries. Plant Breeding, 126, 574–580.ZengY. X.HuC. Y.LuY. G.LiJ. Q.LiuX. D.2010Diversity of abnormal embryo sacs in indica/japonica hybrids in rice demonstrated by confocal microscopy of ovariesPlant Breeding12657458010.1111/j.1439-0523.2007.01380.xSearch in Google Scholar
Zhang, H., Zhao, J., Xin, H., and Zhang, J. (2014). Study on pollination biology of wild Delphinium grandiflorum. Acta Botanica Boreali-Occidentalia Sinica, 34, 1789–1794.ZhangH.ZhaoJ.XinH.ZhangJ.2014Study on pollination biology of wild Delphinium grandiflorumActa Botanica Boreali-Occidentalia Sinica3417891794Search in Google Scholar
