Whether you love it or not, she is integrated into your life every day. She is the plant and the derived botany. If you are curious about how plants spend their lives, and you want to explore the mysteries of plants world; if you want to know how plants respond to abiotic and biotic stresses, survive, and produce their offspring. Come on, please join us!
开设学校:华中农业大学;学科:工学、
Whether you love it or not, she is integrated into your life every day. She is the plant and the derived botany. If you are curious about how plants spend their lives, and you want to explore the mysteries of plants world; if you want to know how plants respond to abiotic and biotic stresses, survive, and produce their offspring. Come on, please join us!
-0.1 Basic characteristics of plants
--0.1 Basic characteristics of plants
--0.1 Basic characteristics of plants
--0.1 Basic characteristics of plants
--0.1 Basic characteristics of plants
-0.2 The status of plants in the biological world
--0.2 The status of plants in the biological world
--0.2 The status of plants in the biological world
--0.2 The status of plants in the biological world
--0.2 The status of plants in the biological world
-0.3 Plant diversity and protection
--0.3 Plant diversity and protection
--0.3 Plant diversity and protection
--0.3 Plant diversity and protection
-0.4 The role of plants in nature and human life
--0.4 The role of plants in nature and human life
--0.4 The role of plants in nature and human life
--0.4 The role of plants in nature and human life
--0.4 The role of plants in nature and human life
-0.5 Brief history and trend of botany development
--0.5 Brief history and trend of botany development
--0.5 Brief history and trend of botany development
--0.5 Brief history and trend of botany development
-1.1 Overview of plant cells
-1.2 Surface structure of plant cells
--1.2 Surface structure of plant cells
--1.2 Surface structure of plant cells
--1.2 Surface structure of plant cells
-1.3 Cytoplasm and nucleus of plant cells
--1.3 Cytoplasm and nucleus of plant cells
--1.3 Cytoplasm and nucleus of plant cells
--1.3 Cytoplasm and nucleus of plant cells
-1.4 Ergastic substance in plant cells
--1.4 Ergastic substance in plant cells
--1.4 Ergastic substance in plant cells
--1.4 Ergastic substance in plant cells
-1.5 Cell proliferation, growth, differentiation and senescence
--1.5 Cell proliferation, growth, differentiation and senescence
--1.5 Cell proliferation, growth, differentiation and senescence
--1.5 Cell proliferation, growth, differentiation and senescence
-Chapter 1 Plant Cell
-2.1 Tissues overview and meristem
--2.1 Tissues overview and meristem
--2.1 Tissues overview and meristem
--2.1 Tissues overview and meristem
--2.1 Tissues overview and meristem
-2.2 Protective tissue
--2.2 Protective tissue
-2.3 Ground tissue, mechanical tissue and secretory structure
--2.3 Ground tissue, mechanical tissue and secretory structure
--2.3 Ground tissue, mechanical tissue and secretory structure
--2.3 Ground tissue, mechanical tissue and secretory structure
-2.4 Conducting tissues
--2.4 Conducting tissues
-2.5 Complex tissue and tissue system
--2.5 Complex tissue and tissue system
--2.5 Complex tissue and tissue system
--2.5 Complex tissue and tissue system
-3.1 Structure and type of seeds
--3.1 Structure and type of seeds
--3.1 Structure and type of seeds
--3.1 Structure and type of seeds
-3.2 Seed germination and seedling development
--3.2 Seed germination and seedling development
--3.2 Seed germination and seedling development
--3.2 Seed germination and seedling development
-Chapter 3 Seed and Seedling
-4.1 Morphological and physiological functions of root
--4.1 Morphological and physiological functions of root
--4.1 Morphological and physiological functions of root
--4.1 Morphological and physiological functions of root
-4.2 Root tip and its zone
--4.2 Root tip and its zone
-4.3 Primary growth and primary structure of roots
--4.3 Primary growth and primary structure of roots
--4.3 Primary growth and primary structure of roots
--4.3 Primary growth and primary structure of roots
--4.3 Primary growth and primary structure of roots
-4.4 Secondary growth and secondary structure of roots
--4.4 Secondary growth and secondary structure of roots
--4.4 Secondary growth and secondary structure of roots
--4.4 Secondary growth and secondary structure of roots
--4.4 Secondary growth and secondary structure of roots
-4.5 Root modifications
--4.5 Root modifications
-5.1 Basic characteristics and physiological functions of stem
--5.1 Basic characteristics and physiological functions of stem
--5.1 Basic characteristics and physiological functions of stem
--5.1 Basic characteristics and physiological functions of stem
-5.2 Stem tip structure and stem primary growth
--5.2 Stem tip structure and stem primary growth
--5.2 Stem tip structure and stem primary growth
--5.2 Stem tip structure and stem primary growth
-5.3 Primary structure of stem
--5.3 Primary structure of stem
--5.3 Primary structure of stem
--5.3 Primary structure of stem
-5.4 Secondary growth of stem
--5.4 Secondary growth of stem
--5.4 Secondary growth of stem
--5.4 Secondary growth of stem
-5.5 Structure of perennial stem
--5.5 Structure of perennial stem
--5.5 Structure of perennial stem
--5.5 Structure of perennial stem
-5.6 Stem modification
-Chapter 5 Vegetative organ——stem
-6.1 Physiological function and basic composition of leaves
--6.1 Physiological function and basic composition of leaves
--6.1 Physiological function and basic composition of leaves
--6.1 Physiological function and basic composition of leaves
-6.2 Anatomical structure of leaves
--6.2 Anatomical structure of leaves
--6.2 Anatomical structure of leaves
--6.2 Anatomical structure of leaves
-6.3 Ecological types of leaves and senescence and abscission of leaves
--6.3 Ecological types of leaves and senescence and abscission of leaves
--6.3 Ecological types of leaves and senescence and abscission of leaves
--6.3 Ecological types of leaves and senescence and abscission of leaves
-6.4 Metamorphosis of leaves
-Chapter 6 Vegetative organ——leaf
-7.1 Concept and types of plant propagation
--7.1 Concept and types of plant propagation
--7.1 Concept and types of plant propagation
--7.1 Concept and types of plant propagation
--7.1 Concept and types of plant propagation
-7.2 Flower and flower bud differentiation
--7.2 Flower and flower bud differentiation
--7.2 Flower and flower bud differentiation
--7.2 Flower and flower bud differentiation
--7.2 Flower and flower bud differentiation
-7.3.1 Anther development and structure
--7.3.1 Anther development and structure
--7.3.1 Anther development and structure
--7.3.1 Anther development and structure
-7.3.2 Development of pollen grains
--7.3.2 Development of pollen grains
--7.3.2 Development of pollen grains
--7.3.2 Development of pollen grains
-7.3.3 Morphology and structure of pollen grains
--7.3.3 Morphology and structure of pollen grains
--7.3.3 Morphology and structure of pollen grains
--7.3.3 Morphology and structure of pollen grains
--7.3.3 Morphology and structure of pollen grains
-7.4.1 Morphology and structure of pistil
--7.4.1 Morphology and structure of pistil
--7.4.1 Morphology and structure of pistil
--7.4.1 Morphology and structure of pistil
-7.4.2 Development of ovule and embryo sac
--7.4.2 Development of ovule and embryo sac
--7.4.2 Development of ovule and embryo sac
--7.4.2 Development of ovule and embryo sac
-7.5 Flowering and pollination
--7.5 Flowering and pollination
--7.5 Flowering and pollination
--7.5 Flowering and pollination
--7.5 Flowering and pollination
-7.6 Double fertilization of angiosperms
--7.6 Double fertilization of angiosperms
--7.6 Double fertilization of angiosperms
--7.6 Double fertilization of angiosperms
--7.6 Double fertilization of angiosperms
-8.1 Seed development
-8.2 Fruit development
-8.3 Life cycle of Angiosperm
--8.3 Life cycle of Angiosperm
--8.3 Life cycle of Angiosperm
--8.3 Life cycle of Angiosperm
-Chapter 8 Seed and Fruit
-9.1 Algae
-9.2 Bryophyte
-9.3 Pteridophyte
-9.4 Spermatophyta
-9.5 Overview of plant evolution
--9.5 Overview of plant evolution
--9.5 Overview of plant evolution
--9.5 Overview of plant evolution
-Chapter 9 Major groups and evolution of the plant kingdom
-10.1 Basics of plant classification
--10.1 Basics of plant classification
--10.1 Basics of plant classification
-10.2.1 Morphological terms of angiosperm classification ——Leaves
--10.2.1 Morphological terms of angiosperm classification ——Leaves
--10.2.1 Morphological terms of angiosperm classification ——Leaves
-10.2.2 Morphological terms of angiosperm classification——Inflorescence
--10.2.2 Morphological terms of angiosperm classification——Inflorescence
--10.2.2 Morphological terms of angiosperm classification——Inflorescence
-10.2.3 Morphological terms of angiosperm classification——Flowers Part 1
--10.2.3 Morphological terms of angiosperm classification——Flowers Part 1
--10.2.3 Morphological terms of angiosperm classification——Flowers Part 1
-10.2.4 Morphological terms of angiosperm classification——Flowers Part 2
--10.2.4 Morphological terms of angiosperm classification——Flowers Part 2
--10.2.4 Morphological terms of angiosperm classification——Flowers Part 2
-10.2.5 Morphological terms of angiosperm classification——Fruits Part 1
--10.2.5 Morphological terms of angiosperm classification——Fruits Part 1
--10.2.5 Morphological terms of angiosperm classification——Fruits Part 1
-10.2.6 Morphological terms of angiosperm classification——Fruits Part 2
--10.2.6 Morphological terms of angiosperm classification——Fruits Part 2
--10.2.6 Morphological terms of angiosperm classification——Fruits Part 2
-Chapter 10 Basic knowledge of plant classification
-11.1 Magnoliaceae
--11.1 Magnoliaceae
-11.2 Brassicaceae
--11.2 Brassicaceae
-11.3 Rosaceae
--11.3 Rosaceae
-11.4 Leguminosae
--11.4 Leguminosae
-11.5 Rutaceae and Solanaceae
--11.5 Rutaceae and Solanaceae
--11.5 Rutaceae and Solanaceae
--11.5 Rutaceae and Solanaceae
-11.6 Compositae
--11.6 Compositae
-11.7 Grameae and Cyperaceae
--11.7 Grameae and Cyperaceae
-11.8 Liliaceae
--11.8 Liliaceae
姚家玲 博士,华中农业大学生科院 教授,湖北名师,楚天园丁奖获得者。 国家首届精品在线开放课程-植物学慕课(MOOC)主持人。主编国家级规划教材《植物学实验》,主编植物类专著《狮山兰芷》、《烟草植物学》。主持或参与湖北省教育教学研究项目9项,一直致力于教学理念更新和教学方法改革、课程建设、教材建设等。获湖北省教学成果一等奖2次、二等奖1次,华中农业大学教学质量优秀一等奖2次,以及“湖北省高校先进女职工”等荣誉。主要科研方向为植物生殖发育生物学与细胞生物学,研究植物花粉育性以及种子发育的遗传与分子机理。
欧阳亦聃 博士,华中农业大学生命科学技术学院教授,博士生导师,中组部“万人计划”青年拔尖人才,教育部“长江学者奖励计划”青年学者。在教学中承担植物学、植物显微技术、群体遗传学等本科生和研究生相关专业课程。在科研中结合遗传学、分子生物学、基因组学和生物信息学等不同方法,从蛋白生化、细胞发育和群体演化等不同层面研究杂种不育和杂种优势的生物学机理。
曲良焕,发育生物学博士。参与编写植物类专著《狮山兰芷》和《烟草植物学》。获学校教学成果二等奖1次,青年教师讲课竞赛二等奖1次,教学质量三等奖3次。自2008年起一直在高校从事植物学教学和科研工作,主讲植物学、植物生物学、植物学实验等课程,参与湖北省教育教学研究项目2项。主要研究领域为植物代谢与发育调控,主持1项国家自然科学基金青年项目,发表SCI论文10多篇。
王莉,华中农业大学,生命科学技术学院,讲师。
薛绍武 华中农业大学生命科学技术学院 教授,博士生导师。主要研究方向是植物逆境生理、保卫细胞信号传导。讲授植物学、植物学基础等课程。
肖景华 华中农业大学生命科学技术学院,副教授。2001年毕业于华中农业大学园艺系获得学士学位。2006年华中农业大学园艺系,获农学博士学位。2007年至今,华中农业大学生命科学技术学院讲师、副教授。
严顺平 博士,华中农业大学生命科学技术学院教授,博士生导师。主要研究方向是植物抗病机理、植物DNA损伤修复机理和植物激素信号转导。讲授植物生理学、高级植物学等课程。
张伟 华中农业大学,生命科学技术学院,讲师,生物化学与分子生物学 博士。主要讲授植物学,植物学实验,植物学基础,植物生物学野外实习等课程。主要研究方向为植物分子生物学。
陈春丽,博士,副教授,博士生、硕士生导师 主讲《植物显微技术》、《植物学》、《植物学实验》等课程。先后主持国际科学基金1项、国家自然科学基金3项、湖北省自然科学基金3项、学校自主科技创新项目等课题。近五年内以第一作者或通讯作者身份在Nature Plants、Molecular Plants等权威杂志上发表学术论文11 篇,获得国家发明专利授权3项。目前主要从事植物干细胞发育生物学研究。
魏星,华中农业大学,生命科学技术学院,讲师。主要研究方向为植物分类学和传粉生物学。
赵毓,华中农业大学教授,博士生导师。教育部新世纪优秀人才计划获得者。承担本科生植物学、植物学实验、基础生物学、植物生物学、植物生物学实验、植物学野外实习、发育生物学等本科课程,以及植物显微学、高级植物学等研究生课程。从事水稻发育生物学和表观遗传学方面的研究。先后主持国家自然科学基金、农业部转基因专项和科技部重大研发计划子项目、教育部人才项目和湖北省自然科学基金等。以第一作者、通讯作者等在Plant Cell, PloS Genetic、Nature Plants等顶级期刊发表研究论文近40篇,授权中国发明专利8项,国际专利1项。曾获湖北省自然科学优秀学术论文一等奖(2010年)、二等奖(2016年)、湖北省细胞生物学学会优秀青年学者奖、湖北省优秀本科论文指导老师奖、华中农业大学第七届十大青年岗位能手,华中农业大学质量优秀教学一等奖和二等奖。