职称：教授（Professor）

职务和曾任重要职务：北京大学生命科学学院教授(Professor of College of Life Sciences, PKU)

研究领域：植物发育生物学（Plant Developmental Biology）

代表性成果和著作

基于拟南芥emf突变体研究，提出植物发育单位概念（Based on the investigation of Arabidopsisemfmutant, proposed a concept of “plant developmental unit”）；

白书农，（1999），现象，对现象的解释和植物发育单位，李承森主编，『植物科学进展』（第二卷），52-69页，高等教育出版社，北京。

基于对黄瓜单性花研究，提出黄瓜单性花发育不是一个性别分化过程，而是促进异交的机制（Based on the investigation of unisexual flower of cucumber, proposed a new opinion that unisexual flower development is not a mechanism of sex differentiation as traditionally believed, rather a mechanism of outcross promotion）；

Bai, S. N. and Xu, Z. H. (2012). Bird-nest puzzle: can the study of unisexual flowers such as cucumber solve the problem of plant sex determination?Protoplasma249 Suppl 2:S119-23

Bai SN, Xu ZH (2013) Unisexual cucumber flowers, sex and sex differentiation. In Jeon K, Ed.:International Review of Cell and Molecular Biology, Vol 304, 1-56. UK: Academic Press

基于对单性花的研究及有关文献调研，提出“有性生殖周期（SRC）”概念，并提出基于SRC的有关“性”、“性别分化”、“性行为”的新定义（Based on the investigation of unisexual flower development of cucumber and the references study regarding the sex, proposed a concept of “sexual reproduction cycle”, SRC, and a set of new definitions on sex, sex differentiation and sexual behavior, derived from the concept of SRC）；

Bai, S. N.(2015) The concept of the sexual reproduction cycle and its evolutionary significance.Frontiers in Plant Science6:11. doi:10.3389/fpls.2015.00011

Bai SN(2019) Plant Morphogenesis 123: A Renaissance in Modern Botany?Sci. China Life Sci.62(4):453-466.

基于对水稻、拟南芥雄蕊早期发育过程的研究，提出“基于SRC的双环”的植物发育程序的观念（Based on the investigation of early stamen development of rice and Arabidopsis, proposed a new interpretation on “plant developmental program” as SRC-derived “double-rings”）；

白书农（2015）植物发育程序：基于有性生殖周期的“双环”.中国科学. 45 (9): 811-819

白书农（2016）量体裁新衣：从植物发育单位到植物发育程序。新生物学年鉴2015, 73-116,科学出版社,北京

Bai SN(2017) Reconsideration of Morphological Traits: From A Structure-Based Perspective to A Function-based Evolutionary Perspective.Front. Plant Sci. 8:345 doi: 10.3389/fpls.2017.00345

基于前期研究，提出“植物形态建成123”的概念框架（Integrated of the previous thought, proposed a conceptual framework of “plant morphogenesis 123”）；

Bai SN(2019) Plant Morphogenesis 123: A Renaissance in Modern Botany?Sci. China Life Sci.62(4):453-466.

为追溯植物形态建成的原动力，提出有关生命系统区别于非生命系统的最初特征“活”的本质的“结构换能量循环”的假说。并在此基础上提出了“整合子生命观”（To understand the driving force of plant morphogenesis, proposed the first line to distinguish living or non-living system by “structure for energy cycle”, i.e. “live”. Derived from the hypothesis, proposed a new theory on the essence of the living system, called “the integrin theory”）。

Bai SN, Ge H, Qian H(2018) Structure for Energy Cycle: A unique status of Second Law of Thermodynamics for living systems.Sci. China Life Sci.doi: 10.1007/s11427-018-9362-y

Bai SN(2019)Structure for Energy, a core principle ofthe Integron Theoryof the living system——Shifting the question from “what is life” to “what is live”.SCON International Convention on Astro Physics and Particle Physics (SCON Astro Physics 2019), May 23-24, 2019, Netherlands

著作：

白书农（2003）植物发育生物学。北京大学出版社