引用本文:	田翠翠,陆勤勤,朱建一,邓银银,胡传明,许广平,周伟.温度对皱紫菜(Pyropia crispata)壳孢子萌发及叶状体形态建成的影响.海洋与湖沼,2020,51(5):1144-1150.

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*温度对皱紫菜(Pyropia crispata)壳孢子萌发及叶状体形态建成的影响*
田翠翠^1,2, 陆勤勤¹, 朱建一³, 邓银银¹, 胡传明¹, 许广平¹, 周伟^1,2
1.江苏省海洋水产研究所南通 226007;2.江苏省农业种质资源保护与利用平台南京 210014;3.常熟理工学院生物与食品工程学院常熟 215500

摘要:

近几年，紫菜“高温烂菜”现象频发，为开发耐高温紫菜栽培种质，本文研究了4种温度（15、20、25、28℃）对皱紫菜壳孢子萌发及叶状体形态建成的影响，并观察了藻体的繁殖特性。结果显示，在试验设定的培养条件下，适宜皱紫菜壳孢子萌发生长温度为20—25℃，最适温度为20℃。皱紫菜壳孢子幼苗萌发初期细胞分裂为横分裂，叶状体细胞呈直线排列，生长至7—10个细胞后，细胞开始出现纵分裂。15、20℃温度组藻体多为不规则的半圆形裂片。25、28℃温度组藻体多为细长型叶片。有性生殖是皱紫菜主要的繁殖方式，但15—20℃培养组的部分藻体能够少量形成并放散类似无性生殖的单孢子并萌发形成叶状体。

关键词: 皱紫菜壳孢子萌发形态建成

DOI：10.11693/hyhz20191200256

分类号:Q943.1;S917

基金项目:国家重点研发计划“蓝色粮仓科技创新”专项项目，2018YFD0901502-3号，2018YFD0901506-3号；国家藻类体系，CARS-50号；江苏现代农业（紫菜）产业技术体系，JATS[2019]393号，JATS[2019]394号，JATS[2019]395号；江苏省农业科技自主创新资金项目，CX（19）3013号，CX（19）3017号；南通市科技计划项目，MS12018085号，YYZ17001号；江苏省海洋水产研究所青年科学基金，SQ201702号

附件

EFFECT OF TEMPERATURE ON CONCHOSPORE GERMINATION AND BLADES MORPHOGENESIS OF PYROPIA CRISPATA (BANGIALES, RHODOPHYTA)

TIAN Cui-Cui^1,2, LU Qin-Qin¹, ZHU Jian-Yi³, DENG Yin-Yin¹, HU Chuan-Ming¹, XU Guang-Ping¹, ZHOU Wei^1,2

1.Jiangsu Marine Fisheries Research Institute, Nantong 226007, China;2.Protection and Utilization of Agricultural Germplasm Resources in Jiangsu Province, Nanjing 210014, China;3.Department of Biology and Food Engineering, Changshu Institute of Technology, Changshu 215500, China

Abstract:

In recent years, cases of Pyropia thallus decay due to high-temperature stress are reported frequently. To develop high-temperature resistant strains of Pyropia, we studied the effects of temperatures (15, 20, 25, and 28℃) on the conchospore germination and blades morphogenesis of P. crispata, and observed the reproduction characteristics. Under the culture conditions in the experiment, the suitable temperature range for the conchospore germination of P. crispata was 20—25℃, and the optimum temperature was 20℃. In the early development stage of P. crispata seedlings, the cell division was transverse, resulting in the in-line arrange of the blades cells. After growing up to 7—10 cells, the cells began to divide vertically. At 15℃ and 20℃, the most blades of P. crispate showed irregular semicircular. At 25℃ and 28℃, the blades were easier to grow in a linear way. Sexual reproduction was the main mode of P. crispate. However, some of the thallus could form and release archeospore-like cells and germinate into thallus at 15—20℃.

Key words: Pyropia crispata conchospore germination morphogenesis