臺灣農藥科學第四期電子書

80 臺灣農藥科學 第 4 期 2. 李靜、胡建斌、李建吾、郭豔。 2008 。 運用正交設計優化黃瓜花粉離體萌發條 件。貴州農業科學 3(6): 139-140 。 3. 李曉麗、嚴立英、馮志紅、賈銀霞。 2008 。 黄 瓜花粉生活力的研究。北方園 藝 3: 24-26 。 4. 宋紅霞、吳旭豔、武喆、張光星。 2011 。 PEG 對胡蘿蔔花粉離體萌發的影 響。長江蔬菜 6: 22-24 。 5. 侯立江、宋瑜龍、牛娜、馬守才、宋亞 珍、王強、張改生、王軍衛。 2015 。小 麥花粉離體萌發培養體系的篩選。中國 農學通報 31(21): 111-114. 6. Asma, B. M. 2008. Determination of pollen viability, germination ratios and morphology of eight apricot genotypes. Afr. J. Biotechnol. 7: 4269-4273. 7. Boavida, L. C., and McCormick, S. 2007. Temperature as a determinant factor for increased and reproducible in vitro pollen germination in Arabidopsis thaliana . Plant J. 52: 570-582. 8. Brewbaker, J. L., and Kwack, B. H. 1963. The essential role of calcium ion in pollen germination and pollen tube growth. Am. J. Bot. 50: 859-865. 9. Burke, J. J., Velten, J., and Oliver, M. J. 2004. In vitro analysis of cotton pollen germination. Agron. J. 96: 359-368. 10. Cook, S. A., and Stanley, R. G. 1960. Tetrazolium chloride as an indicator of pine pollen germinability. Silvae Genetica 9: 134-136. 11. Higashiyama, T., Kuroiwa, H., Kawano, S., and Kuroiwa, T. 1998. Guidance in vitro of the pollen tube to the naked embryo sac of Torenia fournieri . Plant Cell 10: 2019-2031. 12. Kaefer, K. A. C., Chiapetti, R., Fogaça, L., Muller, A. L., Calixto, G. B., and Chaves, E. I. D. 2016. Viability of maize pollen grains in vitro collected at different times of the day. Afr. J. Agric. Res. 11: 1040- 1047. 13. Kargar, M. H., and Imani, A. 2011. Effects of fungicides on pollen germination peach and nectarine in vitro . Afr. J. Plant Sci. 5: 643-647. 14. Krichevsky, A., Kozlovsky, S. V., Tian, G. W., Chen, M. H., Zaltsman, A., and Citovsky, V. 2007. How pollen tube grow. Dev. Biol. 303: 405-420. 15. Vižintin, L., and Bohanec, B. 2004. In vitro manipulation of cucumber ( Cucumis sativus L.) pollen and microspores: isolation procedures, viability tests, germina-tion, maturation. Acta Biol. Cracov. Ser. Bot. 46: 177-183. 16. Mesejo, C., Martínez-Fuentes, A., Reig, C., Rivas, F., and Agustí, M. 2006. The inhibitory effect of CuSO 4 on Citrus pollen germination and pollen tube growth and its application for the production of seedless fruit. Plant Sci. 170: 37-43.