基本信息

职称：副教授

职务：竹鼠小分队队长

邮箱：pjshi@njfu.edu.cn

电话：025-85427231

时培建（1982–），男，安徽省泗县人，博士，中国民主建国会会员，美国纽约科学院专业委员（2023年），美国昆虫学会会员（2024年），竹类病虫防控与资源开发四川省重点实验室学术委员会委员（2017年至今）。南京林业大学副教授，硕士生导师（生态学学硕、林业专硕、应用统计学专硕、森林培育学硕）。

1995.09–2000.03，安徽省泗县第二中学，文科班，高中生。以泗县二中文科第一名成绩在2000年1月19–21日春季高考中被录取。

2000.03–2004.06，北京石油化工学院，经济管理系，管理学学士，毕业论文导师为李梦玉副教授。曾获2001年全国大学生数学建模竞赛北京市一等奖，2003年全国大学生数学建模竞赛全国二等奖。

2004.09–2006.06，北京市市政一建设工程有限责任公司，先后做过出纳、会计、外埠公司呼和浩特市园林工程项目部财务负责人。

2006.09–2009.06，江西农业大学，农学院，动物学硕士，导师为王建国教授，学习期间实质上得到了薛芳森教授、杨清培副教授的帮助和指导。

2009.09–2010.09，中国科学院，动物研究所，农业虫害鼠害综合治理国家重点实验室，研究助理。

2010.09–2013.07，中国科学院，动物研究所，农业虫害鼠害综合治理国家重点实验室，生态学博士，导师为戈峰研究员。

2013.07–2013.12，中国水产科学研究院，黄海水产研究所，渔业资源与生态系统研究室，助理研究员。

2014.06–2016.09，南京林业大学，竹类研究所，讲师。

2016.09–今，南京林业大学，竹类研究所，副教授。

主要从事生物几何学和异速生长理论的研究，主要使用的手段是观察、建模、统计。研究对象为：叶、虫、鸟、竹。研究领域涉及：昆虫学、植物学、理论生物学、物候学和应用空间统计学。

2015年被《美国昆虫学会年报》（Annals of the Entomological Soceity of America）国际学术性期刊（SCI）邀约为正编辑（Subject Editor）。

2019年被比利时《生长与形态》（Growth and Form）国际学术性期刊邀约为正编辑（Area Editor）。

2021年被瑞士《植物科学前沿》（Frontiers in Plant Science）国际学术性期刊（SCI）邀约为客座首席编辑（Senior Guest Associate Editor）。

2021年被中国《西部林业科学》邀约为编委会成员。

2023年被瑞士《生态与进化前沿》（Frontiers in Ecology and Evolution）国际学术性期刊（SCI）邀约为客座编辑（Guest Associate Editor）。

2022年、2023年被MDPI旗下的《Plants》《Symmetry》两个学术性期刊（SCI）邀约为客座编辑（Guest Associate Editor）。

所领导研究生团队微信公众号：竹鼠小分队

在读的硕士生：

廉   梦，理学院，应用统计专业，研三，2022年9月至今，研究方向：洛伦茨曲线与基尼系数在分析植物器官个体大小分布中的应用

陈   珑，生态与环境学院，生态学专业，研三，2022年9月至今，研究方向：使用六种竹类植物验证Montgomery-Koyama-Smith方程在计算叶片总面积的有效性

姚位昊，生态与环境学院，林业专业，研三，2022年9月至今，研究方向：草本植物叶片平均个体大小与生叶强度的关系

邓琳丽，理学院，应用统计专业，研二，2023年9月至今，研究方向：偏最小二乘方法在预测蔷薇科植物的春季开花期的应用

姜飞雪，林草学院，森林培育专业，研一 ，2024年9月至今，研究方向：光竞争对植物高度和冠幅形态的影响

顾   雯，林草学院，森林培育专业，博一，2024年10月至今，研究方向：不同品种海棠开花时间、花期长短和展叶时间的物候学成因研究（暂定），导师：张往祥教授

周丹瑜，林草学院，森林培育专业，研一 ，2024年9月至今，研究方向：不同品种海棠果实形态、果实大小的异速生长关系（暂定），导师：张往祥教授

参与指导的博士生：

郭旭晨，生态与环境学院，生态学专业，博三，2022年9月至今，导师：薛建辉教授

已经毕业（或者转出）的硕士：

刘梦菂，生物与环境学院，生态学专业，2018年9月至2021年6月，学位论文标题：九种木兰科植物叶面积、叶形和叶脉性状的关系

李依蓉，生物与环境学院，林业专业，2019年9月至2022年6月，学位论文标题：樟科植物叶片收益性投入和支撑性成本的权衡

王   容，生物与环境学院，林业专业，2019年9月至2021年6月，学位论文标题：基于重复性空间点格局分析的木兰科叶片气孔分布特征

于可心，生物与环境学院，生态学专业，2020年9月至2023年6月，学位论文标题：12种木兰科植物气孔形态量化及气孔大小与气孔密度的关系

焦亚冰，生物与环境学院，林业专业，2020年9月至2023年6月，学位论文标题：石楠叶功能性状间的异速生长关系

缪沁玥，生物与环境学院，生态学专业，2021年9月至2024年6月，学位论文标题：九种植物叶片近轴面与远轴面两侧色差与比叶重、叶片厚度和SPAD值的关系研究

王   林，理学院，应用统计专业，2021年9月至2024年6月，学位论文标题：鸟蛋的二维平面特征提取及模型重构研究

李麒颖，理学院，应用统计专业，2021年9月入学，2022年12月转入到我团队至2024年6月，学位论文标题：基于统计地震学方法的汶川余震序列活动性分析

郑轶文，理学院，应用统计专业，2021年9月至2024年6月，学位论文标题：非线性主轴回归在分析异速生长关系中的应用

施竹玥，生态与环境学院，生态学专业，2023年9月至2024年6月，2024年6月转出到阮宏华教授门下

王金凤，生态与环境学院，生态学专业，2021年9月入学，2023年3月转入到我团队至至2024年10月，学位论文标题：六种木兰科植物花器官构件之间的异速生长关系，导师：黄溦溦副教授

曾指导的本科生

许   颖，林学院，林学（资源植物利用）专业，2016届本科毕业生

陈   珑，生物与环境学院，生态学专业，2022届本科毕业生

张浏玥，南京农业大学，农学院，农学专业，2023届本科毕业生

沐佑颖，生态与环境学院，生态学专业，2024届本科毕业生

曾参与指导的硕士生

程小飞，生物与环境学院，生态学专业，2012年9月至2015年6月，导师：王福升副教授

陈霜霜，生物与环境学院，生态学专业，2012年9月至2016年6月，导师：王福升副教授

秦    鹏，生物与环境学院，生态学专业，2013年9月至2016年6月，导师：王福升副教授

王舒悰，生物与环境学院，生态学专业，2014年9月至2017年6月，导师：王福升副教授

凡美玲，生物与环境学院，植物学专业，2015年9月至2018年6月，导师：丁雨龙教授

王   平，生物与环境学院，生态学专业，2016年9月至2019年6月，导师：王福升副教授

郭旭晨，生物与环境学院，生态学专业，2019年9月至2022年6月，导师：薛建辉教授

曾参与指导的博士生：

于晓晶，生物与环境学院，植物学专业，2018年9月至2023年12月，导师：封超年教授

研究生国家奖学金获得者

凡美玲，2017

王   平，2018

刘梦菂，2020

焦亚冰，2022

王   林，2023

姚卫昊，2023，2024

陈   珑，2024

廉   梦，2024

辅助其他老师研究生国家奖学金获得者

张   莉，2017

绍丽娟，2018

丁真慧，2023

没本事拿。

一些代表性SCI期刊论文发表情况

Chen, L., Niklas, K.J., Ding, Z., Gielis, J., Miao, Q., Lian, M., Shi, P. (*) 2024. Scaling relationships among the mass of eggshell, albumen, and yolk in six precocial birds. Integrative and Comparative Biology, 64: 133–143.

Guo, X., Shi, P. (*), Niinemets, Ü., Holscher, D., Wang, R., Liu, M., Li, Y., Dong, L., Niklas, K.J. (*) 2021. Leaf diminishing returns of five different age-groups of moso bamboo culms (Phyllostachys edulis). American Journal of Botany, 108: 1662–1672

Li, Y., Shi, P. (*), Niinemets, Ü., Song, Y., Yu, K., Schrader, J., Niklas, K.J. (*) 2022. Diminishing returns among lamina fresh and dry mass, surface area, and petiole fresh mass among nine Lauraceae species. American Journal of Botany, 109: 377−392.

Lian, M., Shi, P. (*), Zhang, L., Yao, W., Gielis, J., Niklas, K.J. (*) 2023. A generalized performance equation and its application in measuring the Gini index of leaf size inequality. Trees − Structure and Function, 37: 1555–1565

Lian, M., He, K., Ratkowsky, D.A., Chen, L., Wang, J., Wang, L., Yao, W., Shi, P. (*) 2024. Comparison of egg-shape equations using relative curvature measures of nonlinearity. Poultry Science, 103: 104069. https://doi.org/10.1016/j.psj.2024.104069

Lin, S., Niklas, K.J., Wan, Y., Holscher, D., Hui, C., Ding, Y., Shi, P. (*) 2020. Leaf shape influences the scaling of leaf dry mass vs. area: a test case using bamboos. Annals of Forest Science, 77: 11

Liu, G. (#), Shi, P. (#), Xu, Q., Dong, X., Wang, F., Wang, G., Hui, C. 2016. Does the size-density relationship developed for bamboo species conform to the self-thinning rule? Forest Ecology and Management, 361: 339−345

Mu, Y., He, K., Shi, P. (*), Wang, L., Deng, L., Shi, Z., Liu, M., Niklas, K.J. (*) 2024. Comparison between computer recognition and manual measurement methods for the estimation of leaf area. Annals of Botany, 134: 501–510

Peng, Q., Cheng, L., Niklas, K.J., Yao, W., Lian, M., Shi, P. (*) 2023. Comparison of three sigmoidal functions describing the leaf growth of Camptotheca acuminata Decne. Ecological Modelling, 486: 110531

Schrader, J., Shi, P., Royer, D.L., Peppe, D.J., Gallagher, R.V., Li, Y., Wang, R., Wright, I.J. 2021. Leaf size estimation based on leaf length, width and shape. Annals of Botany, 128: 395–406

Shi, P., Chen, L., Hui, C., Grissino-Mayer, H.D. 2016. Capture the time when plants reach their maximum body size by using the beta sigmoid growth equation. Ecological Modelling, 320: 177–181

Shi, P., Chen, L., Quinn, B.K., Yu, K., Miao, Q., Guo, X., Lian, M., Gielis, J., Niklas, K.J. 2023. A simple way to calculate the volume and surface area of avian eggs. Annals of the New York Academy of Sciences, 1524(1): 118–131

Shi, P., Chen, Z., Reddy, G.V.P., Hui, C., Huang, J., Xiao, M. 2017. Timing of cherry tree blooming: Contrasting effects of rising winter low temperatures and early spring temperatures. Agricultural and Forest Meteorology, 240-241: 78–89

Shi, P., Deng, L., Miao, Q., Chen, L., Yu, H., Zhu, F., Niklas, K.J., 2024. Scaling relationships of lamina mass per unit area, mean thickness, and leaf bulk tissue density across nine species. American Journal of Botany, 111: e16442.

Shi, P., Fan, M., Ratkowsky, D.A., Huang, J., Wu, H., Chen, L., Fang, S., Zhang, C. 2017. Compaison of two ontogenetic gowth equations for animals and plants. Ecological Modelling, 349: 1–10

Shi, P., Fan, M., Reddy, G.V.P. 2017. Comparison of thermal performance equations in describing temperature-dependent developmental rates of insects: (III) Phenological applications. Annals of the Entomological Society of America, 110: 558−564

Shi, P., Gielis, J., Niklas, K.J. 2022. Comparison of a universal (but complex) model for avian egg shape with a simpler model. Annals of the New York Academy of Sciences,1514: 34–42.

Shi, P., Gielis, J., Quinn, B.K., Niklas, K.J., Ratkowsky, D.A., Schrader, J., Ruan, H., Wang, L., Niinemets, Ü. 2022. 'biogeom': An R package for simulating and fitting natural shapes. Annals of the New York Academy of Sciences, 1516: 123–134.

Shi, P., Hui, C., Men, X., Hui, C., Zhao, Z., Ouyang, F., Cao, H., Jin, X., Ge, F., Li, B. 2014. Cascade effects of crop species richness on the diversity of pest insects and their natural enemies. Science China Life Sciences, 57: 718−725

Shi, P., Ishikawa, T., Sandhu, H.S., Hui, C., Chakraborty, A., Jin, X., Tachihara, K., Li, B. 2014. On the 3/4-exponent von Bertalanffy equation for ontogenetic growth. Ecological Modelling, 276: 23−28

Shi, P., Jiao, Y., Diggle, P.J., Turner, R., Wang, R., Niinemets, U. 2021. Spatial distribution characteristics of stomata at the areole level in Michelia cavaleriei var. platypetala (Magnoliaceae). Annals of Botany, 128: 875–885

Shi, P., Jiao, Y., Niklas, K.J., Li, Y., Guo, X., Yu, K., Chen, L., Hurd, L.E. 2022. Sexual dimorphism in body size and wing loading for three cicada species. Annals of the Entomological Society of America, 115: 344–351.

Shi, P., Li, M., Li, Y., Liu, J., Shi, H., Xie, T., Yue, C. 2019. Taylor's power law in the Wenchuan earthquake sequence with fluctuation scaling. Natural Hazards and Earth System Sciences, 19: 1119−1127

Shi, P., Liu, M., Ratkowsky, D.A., Gielis, J., Su, J., Yu, X., Wang, P., Zhang, L., Lin, Z., Schrader, J. 2019. Leaf area-length allometry and its implications in leaf-shape evolution. Trees, 33: 1073−1085

Shi, P., Miao, Q., Niinemets, Ü., Liu, M., Li, Y., Yu, K., Niklas, K.J. 2022. Scaling relationships of leaf vein and areole traits versus leaf size for nine Magnoliaceae species differing in venation density. American Journal of Botany, 109: 899–909.

Shi, P., Men, X., Sandhu, H.S., Chakraborty, A., Li, B., Ouyang, F., Sun, Y., Ge, F. 2013. The "general" ontogenetic growth model is inapplicable to crop growth. Ecological Modelling, 266: 1−9

Shi, P., Ratkowsky, D.A., Wang, N., Li, Y., Reddy, G.V.P., Zhao, L., Li, B. 2017. Comparison of five methods for parameter estimation under Taylor's power law. Ecological Complexity, 32: 121−130

Shi, P., Reddy, G.V.P., Chen, L., Ge, F. 2016. Comparison of thermal performance equations in describing temperature-dependent developmental rates of insects: (I) empirical models. Annals of the Entomological Society of America, 109: 211−215

Shi, P., Reddy, G.V.P., Chen, L., Ge, F. 2017. Comparison of thermal performance equations in describing temperature-dependent developmental rates of insects: (II) Two thermodynamic models. Annals of the Entomological Society of America, 110: 113−120

Shi, P., Sandhu, H.S., Reddy, G.V.P. 2016. Dispersal distance determines the exponent of the spatial Taylor's power law. Ecological Modelling, 335: 48−53

Shi, P., Wei, J., Sandhu, H.S., Liang, G. 2016. Capture the interaction types of two Bt toxins Cry1Ac and Cry2Ab on suppressing the cotton bollworm by using the multi-exponential equations. Insect Science, 23: 649−654

Wang, J., Shi, P. (*), Yao, W., Wang, L., Li, Q., Tan, R., Niklas, K.J. (*) 2024. The scaling relationship between perianth fresh mass and area: proof of concept using Magnolia × soulangeana Soul.-Bod. Trees − Structure and Function, 38: 241–249.

Wei, Q., Jiao, C., Guo, L., Ding, Y., Cao, J., Feng, J., Dong, X., Mao, L., Sun, H., Yu, F., Yang, G., Shi, P., Ren, G., Fei, Z. 2017. Exploring key cellular processes and candidate genes regulating the primary thickening growth of Moso underground shoots. New Phyotologist, 214: 81−96

Yan, C., Shi P. (*), Yu, K., Guo, X., Lian, M., Miao, Q., Wang, L., Yao, W., Zheng, Y., Zhu, F., Niklas, K.J. (*) 2024. Using the Montgomery-Koyama-Smith equation to calculate the stomatal area per unit lamina area for 12 Magnoliaceae species. Annals of Botany, 134: 1151–1163. https://doi.org/10.1093/aob/mcae165

Yu, X., Shi, P. (*), Schrader, J., Niklas, K.J. (*) 2020. Nondestructive estimation of leaf area for 15 species of vines with different leaf shapes. American Journal of Botany, 107: 1481−1490

Zhang, L., Niklas, K.J., Niinennets, Ü., Li, Q., Yu, K., Li, J., Chen, L., Shi P. (*) 2023. Stomatal area estimation based on stomatal length and width of four Magnoliaceae species: even "kidney"-shaped stomata are not elliptical. Trees – Structure and Function, 37: 1333–1342.

Zhao, Z. (#), Shi, P. (#), Hui, C., Ouyang, F., Ge, F., Li, B.-L. 2013. Solving the pitfalls of pitfall trapping: a two-circle method for density estimation of ground-dwelling arthropods. Methods in Ecology and Evolution, 4: 865−871

发表的英文论文全目录:

2010

Shi, P., Ge, F., 2010. A comparison of different thermal performance functions describing temperature-dependent development rates. Journal of Thermal Biology, 35: 225−231.

Shi, P., Ge, F., Men, X., 2010. How to compare the lower developmental thresholds. Environmental Entomology, 39: 2033−2038.

2011

Bonato, O., Ikemoto, T., Shi, P., Ge, F., Sun, Y., Cao, H., 2011. Common-intersection hypothesis of development rate lines of ectotherms within a taxon revisited. Journal of Thermal Biology, 36: 422−429.

Sandhu, H. S., Shi, P., Kuang, X., Xue, F., Ge, F., 2011. Applications of the bootstrap to insect physiology. Florida Entomologist, 94: 1036−1041. https:// doi.org/10.1653/024.094.0442

Shi, P., Ge, F., Sun, Y., Chen, C., 2011. A simple mode for describing the effect of temperature on insect developmental rate. Journal of Asia-Pacific Entomology, 14: 15−20.

Shi, P., Ikemoto, T., Egami, C., Sun, Y., Ge, F., 2011. A modified program for estimating the parameters of the SSI model. Environmental Entomology, 40: 462−469.

2012

Kuang X., Parajulee, M.N., Shi, P., Ge, F., Xue, F., 2012. Testing the rate isomorphy hypothesis using five statistical methods. Insect Science, 19: 121−128.

Reddy, G.V.P., Shi, P., Mann, C.R. et al., 2012. Can a semiochemical-based trapping method diminish damage levels caused by Rhabdoscelus obscurus (Coleoptera: Curculionidae)? Annals of the Entomological Society of America, 105: 693−700.

Shi, P., Li, B., Ge, F., 2012. Intrinsic optimum temperature of the diamondback moth and its ecological meaning. Environmental Entomology, 41: 714−722.

Shi, P., Wang, B., Ayres, M.P., Ge, F., Zhong, L., Li, B.-L., 2012. Influence of temperature on the northern distribution limits of Scirpophaga incertulas Walker (Lepidoptera: Pyralidae) in China. Journal of Thermal Biology, 37: 130−137.

Shi, P., Zhong, L., Sandhu, H.S, Ge, F., Xu, X., Chen, W., 2012. Population decrease of Scirpophaga incertulas Walker (Lepidoptera: Pyralidae) under climate warming. Ecology and Evolution, 2: 58−64.

2013

Chakraborty, A., Shi, P., Liu, Q., Yang, Q., Li, B., 2013. A commensal consumer-induced mediation effects on resource-consumer interactions. Proceedings of the National Academy of Sciences, India − Section B: Biological Sciences, 83: 385−404.

Ikemoto, T., Kurahashi, I., Shi, P., 2013. Confidence interval of intrinsic optimum temperature estimated by using thermodynamic SSI model. Insect Science, 20: 420−428.

Sandhu, H.S., Shi, P., Yang, Q., 2013. Intraspecific spatial niche differentiation: evidence from Phyllostachys edulis. Acta Ecologica Sinica, 33: 287−292.

Shi, P., Men, X., Sandhu, H.S., Chakraborty, A., Li, B., Ouyang, F., Sun, Y., Ge, F., 2013. The "general" ontogenetic growth model is inapplicable to crop growth. Ecological Modelling, 266: 1−9.

Shi, P., Sandhu, H.S., Ge, F., 2013. Could the intrinsic rate of increase represent the fitness in terrestrial ectotherms? Journal of Thermal Biology, 38: 148−151.

Shi, P., Sandhu, H.S., Xiao, H., 2013. Logistic regression is a better method of analysis than linear regression of arcsine square root transformed proportional diapause data of Pieris melete (Lepidoptera: Pieridae). Florida Entomologist, 96: 1183−1185.

Wang, L., Shi, P., Chen, C., Xue, F., 2013. Effect of temperature on the development of Laodelpha xstriatellus (Homoptera: Delphacidae). Journal of Economic Entomology, 106: 107−114.

Zhao, Z., Shi, P., Hui, C., Ouyang, F., Ge, F., Li, B.-L., 2013. Solving the pitfalls of pitfall trapping: a two-circle method for density estimation of ground-dwelling arthropods. Methods in Ecology and Evolution, 4: 865−871.

Zhao, Z., Shi, P., Men, X., Ouyang, F., Ge, F., 2013. Effects of crop species richness on pest-natural enemy systems based on an experimental model system using a microlandscape. Science China Life Sciences, 56: 758−766.

2014

Ouyang, F., Hui, C., Ge, S.Y., Men, X.Y., Zhao, Z.H., Shi, P.J., Zhang, Y.S., Li, B.L., 2014.Weakening density dependence from climate change and agricultural intensification triggers pest outbreaks: a 37-year observation of cotton bollworms. Ecology and Evolution, 4: 3362−3374.

Shi, P., Chen, Z., Yang, Q., Harris, M.K., Xiao, M., 2014. Influence of air temperature on the first flowering date of Prunusy edoensis Matsum. Ecology and Evolution, 4: 292−299.

Shi, P., Hui, C., Men, X., Hui, C., Zhao, Z., Ouyang, F., Cao, H., Jin, X., Ge, F., Li, B.-L., 2014. Cascade effects of crop species richness on the diversity of pest insects and their natural enemies. Science China Life Sciences, 57: 718−725.

Shi, P., Ishikawa, T., Sandhu, H.S., Hui, C., Chakraborty, A., Jin, X., Tachihara, K., Li, B., 2014. On the 3/4-exponent von Bertalanffy equation for ontogenetic growth. Ecological Modelling, 276: 23−28.

Shi, P., Zhao, Z., Sandhu, H.S., Hui, C., Men, X., Ge, F., Li, B., 2014. An optimization approach to the two-circle method of estimating ground-dwelling arthropod densities. Florida Entomologist, 97: 644−652.

2015

Cheng, X., Shi, P., Hui, C., Wang, F., Liu, G., Li, B., 2015. An optimal proportion of mixing broad-leaved forest for enhancing the effective productivity of moso bamboo. Ecology and Evolution, 5: 1576−1584.

Lu, Z.B., Shi, P.J., Reddy, G.V.P., Li, L.M., Men, X.Y., Ge, F., 2015. Nonparametric estimation of interspecific spatio-temporal niche separation between two lady beetles (Coleoptera: Coccinellidae) in Bt cotton fields. Annals of the Entomological Society of America, 108: 807−813.

Reddy, G.V.P., Shi, P., Hui, C., Cheng, X., Ouyang, F., Ge, F., 2015. The seesaw effect of winter temperature change on the recruitment of cotton bollworms Helicoverpa armigera through mismatched phenology. Ecology and Evolution, 5: 5652−5661.

Shi, P., Huang, J., Hui, C., Grissino-Mayer, H.D., Tardif, J., Zhai, L., Wang, F., Li, B.-L., 2015. Capturing spiral radial growth of conifers using the superellipse to model tree-ring geometric shape. Frontiers in Plant Science, 6: 856.

Shi, P., Xu, Q., Sandhu, H.S., Gielis, J., Ding, Y., Li, H., Dong, X., 2015. Comparison of dwarf bamboos (Indocalamus sp.) leaf parameters to determine relationship between spatial density of plants and total leaf area per plant. Ecology and Evolution, 5: 4578−4589.

2016

Chen, L., Li, Z., Hui, C., Cheng, X., Li, B., Shi, P., 2016. A general method for parameter estimation in light-response models. Scientific Reports, 6: 27905.

Lin, S., Zhang, L., Reddy, G.V.P., Hui, C., Gielis, J., Ding, Y., Shi, P., 2016. A geometrical model for testing bilateral symmetry of bamboo leaf with a simplified Gielis equation. Ecology and Evolution, 6: 6798−6806.

Liu, G., Shi, P., Xu, Q., Dong, X., Wang, F., Wang, G., Hui, C., 2016. Does the size-density relationship developed for bamboo species conform to the self-thinning rule? Forest Ecology and Management, 361: 339−345.

Ouyang, F., Hui, C., Men, X., Zhang, Y., Fan, L., Shi, P., Zhao, Z., Ge, F., 2016. Early eclosion of overwintering cotton bollworm moths from warming temperatures accentuates yield loss in wheat. Agriculture, Ecosystems and Environment, 217: 89−98.

Pan, Y., Bai, B., Xiong, T., Shi, P., Lu, C., 2016. Seed handling by primary frugivores differentially influence post-dispersal seed removal of Chinese yew by ground-dwelling animals. Integrative Zoology, 11: 191−198.

Shi, P., Chen, L., Hui, C., Grissino-Mayer, H.D., 2016. Capture the time when plants reach their maximum body size by using the beta sigmoid growth equation. Ecological Modelling, 320: 177−181.

Shi, P., Reddy, G.V.P., Chen, L., Ge, F., 2016. Comparison of thermal performance equations in describing temperature-dependent developmental rates of insects: (I) empirical models. Annals of the Entomological Society of America, 109: 211−215.

Shi, P., Sandhu, H.S., Reddy, G.V.P., 2016. Dispersal distance determines the exponent of the spatial Taylor’s power law. Ecological Modelling, 335: 48−53.

Shi, P., Wei, J., Sandhu, H.S., Liang, G., 2016. Capture the interaction types of two Bt toxins Cry1Ac and Cry2Ab on suppressing the cotton bollworm by using the multi-exponential equations. Insect Science, 23: 649−654.

2017

Cheng, L., Hui, C., Reddy, G.V.P., Ding, Y., Shi, P., 2017. Internode morphometrics and allometry of Tonkin Cane Pseudosasa amabilis. Ecology and Evolution, 7: 9651−9660.

Shi, P., Chen, Z., Reddy, G.V.P., Hui, C., Huang, J., Xiao, M., 2017. Timing of cherry tree blooming: Contrasting effects of rising winter low temperatures and early spring temperatures. Agricultural and Forest Meteorology, 240−241: 78−89.

Shi, P., Fan, M., Ratkowsky, D.A., Huang, J., Wu, H., Chen, L., Fang, S., Zhang, C., 2017. Comparison of two ontogenetic growth equations for animals and plants. Ecological Modelling, 349: 1−10.

Shi, P., Fan, M., Reddy, G.V.P., 2017. Comparison of thermal performance equations in describing temperature-dependent developmental rates of insects: (III) Phenological applications. Annals of the Entomological Society of America, 110: 558−564.

Shi, P., Ratkowsky, D.A., Wang, N., Li, Y., Reddy, G.V.P., Zhao, L., Li, B., 2017. Comparison of five methods for parameter estimation under Taylor’s power law. Ecological Complexity, 32: 121−130.

Shi, P., Reddy, G.V.P., Chen, L., Ge, F., 2017. Comparison of thermal performance equations in describing temperature-dependent developmental rates of insects: (II) Two thermodynamic models. Annals of the Entomological Society of America, 110: 113−120.

Wei, Q., Jiao, C., Guo, L., Ding, Y., Cao, J., Feng, J., Dong, X., Mao, L., Sun, H., Yu, F., Yang, G., Shi, P., Ren, G., Fei, Z., 2017. Exploring key cellular processes and candidate genes regulating the primary thickening growth of Moso underground shoots. New Phytologist, 214: 81−96.

2018

Lin, S., Shao, L., Hui, C., Sandhu, H.S., Fan, T., Zhang, L., Li, F., Ding, Y., Shi, P., 2018. The effect of temperature on the developmental rates of seedling emergence and leaf-unfolding in two dwarf bamboo species. Trees – Structure and Function, 32: 751−763.

Lin, S., Shao, L., Hui, C., Song, Y., Reddy, G.V.P., Gielis, J., Li, F., Ding, Y., Wei, Q., Shi, P., 2018. Why does not the leaf weight-area allometry of bamboos follow the 3/2-power law? Frontiers in Plant Science, 9: 583.

Shi, P., Gao, J., Song, Z., Liu, Y., Hui, C., 2018. Spatial segregation facilitates the coexistence of tree species in temperate forests. Forests, 9: 768.

Shi, P., Ratkowsky, D.A., Li, Y., Zhang, L., Lin, S., Gielis, J., 2018. A general leaf-area geometric formula exists for plants – Evidence from the simplified Gielis equation. Forests, 9: 714.

Shi, P., Zheng, X., Ratkowsky, D.A., Li, Y., Wang, P., Cheng, L., 2018. A simple method for measuring the bilateral symmetry of leaves. Symmetry, 10: 118. https://doi.org/10.3390/sym10040118

Wang, P., Ratkowsky, D.A., Xiao, X., Yu, X., Su, J., Zhang, L., Shi, P., 2018. Taylor’s power law for leaf bilateral symmetry. Forests, 9: 500.

2019

Cao, L., Shi, P., Li, L., Chen, G., 2019. A new flexible sigmoidal growth model. Symmetry, 11: 204.

Huang, W., Ratkowsky, D.A., Hui, C., Wang, P., Su, J., Shi, P., 2019. Leaf fresh weight versus dry weight: which is better for describing the scaling relationship between leaf biomass and leaf area for broad-leaved plants? Forests, 10: 256.

Huang, W., Su, X., Ratkowsky, D.A., Niklas, K.J., Gielis, J., Shi, P., 2019. The scaling relationships of leaf biomass vs. leaf surface area of 12 bamboo species. Global Ecology and Conservation, 20: e00793.

Shi, P., Li, M., Li, Y., Liu, J., Shi, H., Xie, T., Yue, C., 2019. Taylor’s power law in the Wenchuan earthquake sequence with fluctuation scaling. Natural Hazards and Earth System Sciences, 19: 1119−1127.

Shi, P., Liu, M., Ratkowsky, D.A., Gielis, J., Su, J., Yu, X., Wang, P., Zhang, L., Lin, Z., Schrader, J., 2019. Leaf area-length allometry and its implications in leaf-shape evolution. Trees – Structure and Function, 33: 1073−1085. https://doi.org/10.1007/s00468-019-01843-4

Shi, P., Liu, M., Yu, X., Gielis, J., Ratkowsky, D.A., 2019. Proportional relationship between leaf area and the product of leaf length width of four types of special leaf shapes. Forests, 10: 178. https://doi.org/10.3390/f10020178

Shi, P., Quinn, B.K., Zhang, Y., Bao, X., Lin, S., 2019. Comparison of the intrinsic optimum temperatures for seed germination between two bamboo species based on a thermodynamic model. Global Ecology and Conservation, 17: e00568.

Shi, P., Zhao, L., Ratkowsky, D.A., Niklas, K.J., Huang, W., Lin, S., Ding, Y., Hui, C., Li, B.-L., 2019. Influence of the physical dimension of leaf size measures on the goodness of fit for Taylor's power law using 101 bamboo taxa. Global Ecology and Conservation, 18: e00657. https://doi.org/10.1016/j.gecco.2019.e00657

Su, J., Niklas, K.J., Huang, W., Yu, X., Yang, Y., Shi, P., 2019. Lamina shape does not correlate with lamina surface area: An analysis based on the simplified Gielis equation. Global Ecology and Conservation, 19: e00666.

Yu, X., Hui, C., Sandhu, H.S., Lin, Z., Shi, P., 2019. Scaling relationships between leaf shape and area of 12 Rosaceae species. Symmetry, 11: 1255.

Yu, X., Shi, P., Hui, C., Miao, L., Liu, C., Zhang, Q., Feng, C., 2020. Effects of salt stress on the leaf shape and scaling of Pyrus betulifolia Bunge. Symmetry, 11: 991.

2020

Gielis J., Diego, C., Shi, P., Ricci, P.E., 2020. A note on spirals and curvature. Growth and Form, 1: 1−8.

Guo, X., Reddy, G.V.P., He, J., Li, J., Shi, P., 2020. Mean-variance relationships of leaf bilateral asymmetry for 35 species of plants and their implications. Global Ecology and Conservation, 23: e01152.

He, J., Reddy, G.V.P., Liu, M., Shi, P., 2020. A general formula for calculating surface area of the similarly shaped leaves: Evidence from six Magnoliaceae species. Global Ecology and Conservation, 23: e01129.

Huang, W., Li, Y., Niklas, K.J., Gielis, J., Ding, Y., Cao, L., Shi, P., 2020. A superellipse with deformation and its application in describing the cross-sectional shapes of a square bamboo. Symmetry, 12: 2073. https://doi.org/10.3390/sym12122073

Huang, W., Reddy, G.V.P., Li, Y., Larsen, J.B., Shi, P., 2020. Increase in absolute leaf water content tends to keep pace with that of leaf dry mass—Evidence from bamboo plants. Symmetry, 12: 1345.

Lin, S., Niklas, K.J., Wan, Y., Hölscher, D., Hui, C., Ding, Y., Shi, P., 2020. Leaf shape influences the scaling of leaf dry mass vs. area: a test case using bamboos. Annals of Forest Science, 77: 11.

Liu, G., Hui, C., Chen, M., Pile, L.S., Wang, G.G., Wang, F., Shi, P., 2020. Variation in individual biomass decreases faster than mean of biomass with density increasing. Journal of Forestry Research, 31: 981−987.

Liu, M., Niklas, K.J., Niinemets, Ü., Hölscher, D., Chen, L., Shi, P., 2020. Comparison of the scaling relationships of leaf biomass versus surface area between spring and summer for two deciduous tree species. Forests, 11: 1010.

Shi, P., Li, Y., Hui, C., Ratkowsky, D.A., Yu, X., Niinemets, Ü., 2020. Does the law of diminishing returns in leaf scaling apply to vines? – Evidence from 12 species of climbing plants. Global Ecology and Conservation, 21: e00830.

Shi, P., Niinemets, Ü., Hui, C., Niklas, K.J., Yu, X., Hölscher, D., 2020. Leaf bilateral symmetry and the scaling of the perimeter vs. the surface area in 15 vine species. Forests, 11: 246. https://doi.org/10.3390/f11020246

Shi, P., Ratkowsky, D.A., Gielis, J. 2020. The generalized Gielis geometric equation and its application. Symmetry, 12: 645.

Shi, P., Preisler, H.K., Quinn, B.K., Zhao, J., Huang, W., Röll, A., Cheng, X., Li, H., Hölscher, D., 2020. Precipitation is the most crucial factor determining the distribution of moso bamboo in Mainland China. Global Ecology and Conservation, 22: e00924.

Tian, F., Wang, Y., Sandhu, H.S., Gielis, J., Shi, P., 2020. Comparison of seed morphology of two ginkgo cultivars. Journal of Forestry Research, 31: 751−758.

Yu, X., Shi, P., Schrader, J., Niklas, K.J., 2020. Nondestructive estimation of leaf area for 15 species of vines with different leaf shapes. American Journal of Botany, 107: 1481−1490. https://doi.org/10.1002/ajb2.1560

2021

Guo, X., Shi, P., Niinemets, Ü., Hölscher, D., Wang, R., Liu, M., Li, Y., Dong, L., Niklas, K.J., 2021. “Diminishing returns” for leaves of five age-groups of Phyllostachys edulis culms. American Journal of Botany, 108: 1662−1672.

Huang, L., Niinemets, Ü., Ma, J., Schrader, J., Wang, R., Shi, P., 2021. Plant age has a minor effect on non-destructive leaf area calculations in moso bamboo (Phyllostachys edulis). Symmetry, 13: 369. https://www.mdpi.com/2073-8994/13/3/369

Schrader, J., Shi, P., Royer, D.L., Peppe, D.J., Gallagher, R.V., Li, Y., Wang, R., Wright, I.J., 2021. Leaf size estimation based on leaf length, width and shape. Annals of Botany, 128: 395−406.

Shi, P., Jiao, Y., Diggle, P.J., Turner, R., Wang, R., Niinemets, Ü., 2021. Spatial distribution characteristics of stomata at the areole level in Michelia cavaleriei var. platypetala (Magnoliaceae). Annals of Botany, 128: 875−885.

Shi, P., Li, Y., Niinemets, Ü., Olson, E., Schrader, J., 2021. Influence of leaf shape on the scaling of leaf surface area and length in bamboo plants. Trees – Structure and Function, 35: 709−715.

Shi, P., Yu, K., Niinemets, Ü., Gielis, J., 2021. Can leaf shape be represented by the ratio of leaf width to length? Evidence from nine species of Magnolia and Michelia (Magnoliaceae). Forests, 12: 41.

Shi, P., Yu, K., Niinemets, Ü., Gielis, J., 2021. Can leaf shape be represented by the ratio of leaf width to length? Evidence from nine species of Magnolia and Michelia (Magnoliaceae). Forests, 12: 41. https://doi.org/10.3390/f12010041

Shi, P., Yu, K., Niklas, K.J., Schrader, J., Song, Y., Zhu, R., Li, Y., Wei, H., Ratkowsky, D.A., 2021. A general model for describing the ovate leaf shape. Symmetry, 13: 1524. https://doi.org/10.3390/sym13081524

2022

Guo, X., Niklas, K.J., Li, Y., Xue, J., Shi, P., Schrader, J., 2022. “Diminishing returns”: a comparison between fresh mass vs. area and dry mass vs. area in deciduous species. Frontiers in Plant Science, 13: 832300, https://doi.org/10.3389/fpls.2022.832300

Jiao, Y., Niklas, K.J., Wang, L., Yu, K., Li, Y., Shi, P., 2022. Influence of leaf age on the scaling relationships of lamina mass vs. area. Frontiers in Plant Science, 13: 860206.

Jin, J., Quinn, B.K., Shi, P., 2022. The modified Brière equation and its applications. Plants, 11: 1769.

Li, Y., Niklas, K.J., Gielis, J., Niinemets, Ü., Schrader, J., Wang, R., Shi, P., 2022. An elliptical blade is not a true ellipse, but a superellipse – Evidence from two Michelia species. Journal of Forestry Research, 33: 1341−1348. https://doi.org/10.1007/s11676-021-01385-x

Li, Y., Quinn, B.K., Gielis, J., Li, Y., Shi, P., 2022. Evidence that supertriangles exist in nature from the vertical projections of Koelreuteria paniculata fruit. Symmetry,14, 23.

Li, Y., Quinn, B. K., Niinemets, Ü., Schrader, J., Gielis, J., Liu, M., Shi, P., 2022. Ellipticalness index – A simple measure of the complexity of oval leaf shape. Pakistan Journal of Botany, 54: 2233−2240. https://doi.org/10.30848/PJB2022-6(44)

Li, Y., Zheng, Y, Ratkowsky, D.A., Wei, H., Shi, P., 2022. Application of an ovate leaf shape model to evaluate leaf bilateral asymmetry and calculate lamina centroid location. Frontiers in Plant Science, 12: 822907. https://doi.org/10.3389/fpls.2021.822907

Li, Y., Shi, P., Niinemets, Ü, Song, Y., Yu, K., Schrader, J., Niklas, K.J., 2022. Diminishing returns among lamina fresh and dry mass, surface area, and petiole fresh mass among nine Lauraceae species. American Journal of Botany, 109: 377−392.

Ma, J., Niklas, K.J., Liu, L., Fang, Z., Li, Y., Shi, P., 2022. Tree size influences leaf shape but does not affect the proportional relationship between leaf area and the product of length and width. Frontiers in Plant Science 13: 850203. https://doi.org/10.3389/fpls.2022.850203

Shi, P., Gielis, J., Niklas, K.J., 2022. Comparison of a universal (but complex) model for avian egg shape with a simpler model. Annals of the New York Academy of Sciences, 1514: 34–42.

Shi, P., Gielis, J., Quinn, B.K., Niklas, K.J., Ratkowsky, D.A., Schrader, J., Ruan, H., Wang, L., Niinemets, Ü., 2022. ‘biogeom’: An R package for simulating and fitting natural shapes. Annals of the New York Academy of Sciences, 1516: 123–134.

Shi, P., Jiao, Y., Niklas, K.J., Li, Y., Guo, X., Yu, K., Chen, L., Hurd, L.E. 2022. Sexual dimorphism in body size and wing loading for three cicada species. Annals of the Entomological Society of America, 115: 344–351.

Shi, P., Miao, Q., Niinemets, Ü., Liu, M., Li, Y., Yu, K., Niklas, K.J., 2022. Scaling relationships of leaf vein and areole traits versus leaf size for nine Magnoliaceae species differing in venation density. American Journal of Botany, 109: 899–909.

Wang, L., Miao, Q., Niinemets, Ü., Gielis, J., Shi, P., 2022. Quantifying the variation in the geometries of the outer rims of corolla tubes of Vinca major L. Plants, 11: 1987. https://doi.org/10.3390/ plants11151987

Wang, L., Ratkowsky, D.A., Gielis, J., Ricci, P.E., Shi, P., 2022. Effects of the numerical values of the parameters in the Gielis equation on its geometries. Symmetry, 14: 2475. https://doi.org/10.3390/sym14122475

Yao, W., Niinemets, Ü., Yao, W., Gielis, J., Schrader, J., Yu, K., Shi, P. Comparison of two simplified versions of the Gielis equation ford escribing the shape of bamboo leaves. Plants, 11: 3058. https://doi.org/10.3390/plants11223058

Yu, K., Reddy, G. V. P., Schrader, J., Guo, X., Li, Y., Jiao, Y., Shi, P., 2022. A nondestructive method of calculating the wing area of insects. Ecology and Evolution, 12: e8792.

Zheng, X., Niklas, K.J., Ratkowsky, D.A., Jiao, Y., Ding, H., Shi, P., 2022. Comparison of leaf shape between a Photinia hybrid and one of its parents. Plants, 11: 2370. https://doi.org/10.3390/plants11182370

2023

Guo, X., Schrader, J., Shi, P., Jiao, Y., Miao, Q., Xue, J., Niklas, K.J., 2023. Leaf-age and petiole biomass play significant roles in leaf biomass scaling relationships. Frontiers in Plant Science, 14: 1322245. https://doi.org/10.3389/fpls.2023.1322245

He, K., Hui, C., Yao, W., Wang, J., Wang, L., Li, Q., Shi, P., 2023. Evidence that field muskmelon (Cucumis melo L. var. agrestis Naud.) fruits are solids of revolution. Plants, 12: 4186. https://doi.org/10.3390/plants12244186

Huang, L.C., Ratkowsky, D.A., Hui, C., Gielis, J., Lian, M., Yao, W.H., Li, Q.Y., Zhang, L.Y., Shi, P.J., 2023. Inequality measure of leaf area distribution for a drought-tolerant landscape plant. Plants, 12: 3143. https://doi.org/10.3390/plants12173143

Jiao, Y., Li, J., Wang, L., Shi, P., 2024. Scaling relationships between leaf petiole and lamina size of two Photinia species. Botany Letters. 171: 150–158. https://doi.org/10.1080/23818107.2023.2268201

Li, Q.Y., Niklas, K.J., Niinennets, Ü., Zhang, L.Y., Yu, K.X., Gielis, J., Gao, J., Shi P.J., 2024. Stomatal shape described by a superellipse in four Magnoliaceae species. Botany Letters, 171: 93–101.

Lian, M., Shi, P.J., Zhang, L.Y., Yao, W.H., Gielis, J., Niklas, K.J., 2023. A generalized performance equation and its application in measuring the Gini index of leaf size inequality. Trees − Structure and Function, 37: 1555–1565.

Niklas, K.J., Shi, P., Gielis, J., Schrader, J. Niinemets, Ü., 2023. Editorial: Leaf functional traits: Ecological and evolutionary implications. Frontiers in Plant Science, 14: 1169558. https://doi.org/10.3389/fpls.2023.1169558

Peng, Q., Cheng, L., Niklas, K.J., Yao, W., Lian, M., Shi, P., 2023. Comparison of three sigmoidal functions describing the leaf growth of Camptotheca acuminata Decne. Ecological Modelling, 486: 110531.

Shi, P., Chen, L., Quinn, B.K., Yu, K., Miao, Q., Guo, X., Lian, M., Gielis, J., Niklas, K.J., 2023. A simple way to calculate the volume and surface area of avian eggs. Annals of the New York Academy of Sciences, 1524(1): 118–131. https://doi.org/10.1111/nyas.15000

Shi, P., Quinn, B.K., Chen, L., Gao, J., Schrader, J., 2023. Quantifying α-diversity as a continuous function of location − A case study of a temperate forest. Journal of Forestry Research, 34: 1683–1691.

Shi, P., Wang, L., Niinemets, Ü., Jiao, Y., Niklas, K.J., 2023. Estimation of stomatal density of leaves with hierarchical reticulate venation. Botany Letters, 170: 269–277. https://doi.org/10.1080/23818107.2022.2156600

Shi, P., Wang, L., Quinn, B.K., Gielis, J., 2023. A new program to estimate the parameters of Preston’s equation, a general formula for describing the egg shape of birds. Symmetry, 15: 231. https:// doi.org/10.3390/sym15010231

Sun, M., Niinemets, Ü., Li, Q., Jiao, Y., Yao, W., Shi, P., 2023. An inverse scaling relationship between stomatal density and mean nearest neighbor distance: Evidence from a Photinia hybrid and one of its parents. Plants, 12: 3701. https://doi.org/10.3390/plants12213701

Wang, L., Shi, P.J., Chen, L., Gielis, J., Niklas, K.J., 2024. Evidence that Chinese white olive (Canarium album (Lour.) DC.) fruits are solids of revolution. Botany Letter, 171: 109–115.

Yan, D., Jiao, Y., Shi, P., 2023. Can lamina fresh mass be used to represent lamina dry mass? Evidence from Photinia serratifolia. Frontiers in Ecology and Evolution, 11: 1208039. https:// doi.org/10.3389/fevo.2023.1208039

Yang, Y.F., Ratkowsky, D.A., Yang, J., Shi, P.J., 2023. Effects of plant coverage on the abundance of adult mosquitos at an urban park. Plants, 12: 983. https://doi.org/10.3390/plants12050983

Zhang, L.Y., Niklas, K.J., Niinennets, Ü., Li, Q.Y., Yu, K.X., Li, J.Q.N., Chen, L., Shi P.J., 2023. Stomatal area estimation based on stomatal length and width of four Magnoliaceae species: even “kidney”-shaped stomata are not elliptical. Trees – Structure and Function, 37: 1333–1342.

2024

Chen, L., He, K., Shi, P.J., Lian, M., Yao, W.H., Niklas, K.J., 2024. Influence of tree size on the scaling relationships of lamina and petiole traits: a case study using Camptotheca acuminata Decne. Ecology and Evolution, 14: e70066. https://doi.org/10.1002/ece3.70066

Chen, L., Niklas, K.J., Ding, Z., Gielis, J., Miao, Q., Lian, M., Shi, P., 2024. Scaling relationships among the mass of eggshell, albumen, and yolk in six precocial birds. Integrative and Comparative Biology, 64: 133–143. https://doi.org/10.1093/icb/icae001

Deng, L., He, K., Niklas, K.J., Shi, Z., Mu, Y., Shi, P., 2024. Comparison of five equations in describing the variation of leaf area distributions of Alangium chinense (Lour.) Harms. Frontiers in Plant Science, 15: 1426424. https://doi.org/10.3389/fpls.2024.1426424

Guo, M.G., Bai, C.M., Li, Q.L., Yu, K.X., Shi, P.J., Rodríguez-Hernández, D.I., Guo, X.L., 2024. The scaling relationships between leaf sheath size and leaf lamina size in six bamboo species. Botany Letters, 171(3): 309–318. https://doi.org/10.1080/23818107.2024.2326417

He, K., Niklas, K.J., Niinemets, Ü., Wang, J., Jiao, Y., Shi, P., 2024. Significant correlation between leaf vein length per unit area and stomatal density: Evidence from Red Tip and Chinese photinias. Frontiers in Plant Science, 15: 1365449. https://doi.org/10.3389/fpls.2024.1365449

He, K., Ratkowsky, D.A., Fu, P., Yao, W., Lian, M., Chen, L., Shi, P., 2024. Variation of leaf shape with tree size: A case study using Camptotheca acuminata Decne. Frontiers in Plant Science, 15: 1468483. https://doi.org/10.3389/fpls.2024.1468483

He, K., Wang, L., Ratkowsky, D.A., Shi, P., 2024. Comparison of four light-response models using relative curvature measures of nonlinearity. Scientific Reports, 14: 24058. https://doi.org/10.1038/s41598-024-75325-0

Lian, M., Chen, L., Hui, Cang., Shi, P.J., 2024. On the relationship between the Gini coefficient and skewness. Ecology and Evolution, 14: e70637, https://doi.org/10.1002/ece3.70637

Lian, M., He, K., Ratkowsky, D.A., Chen, L., Wang, J.F., Wang, L., Yao, W.H., Shi, P.J., 2024. Comparison of egg-shape equations using relative curvature measures of nonlinearity. Poultry Science, 103: 104069. https://doi.org/10.1016/j.psj.2024.104069

Mu, Y., He, K., Shi, P., Wang, L., Deng, L., Shi, Z., Liu, M., Niklas, K.J., 2024. Comparison between computer recognition and manual measurement methods for the estimation of leaf area. Annals of Botany, 134(3): 501–510. https://doi.org/10.1093/aob/mcae090

Shi, P., Deng, L., Miao, Q., Chen, L., Yu, H., Zhu, F., Niklas, K.J., 2024. Scaling relationships of lamina mass per unit area, mean thickness, and leaf bulk tissue density across nine diverse species. American Journal of Botany, 111: e16442. https://doi.org/10.1002/ajb2.16442

Shi, P., Deng, L., Niklas, K.J., 2024. Rotated Lorenz curves of biological size distributions follow two performance equations. Symmetry, 16: 565. https://doi.org/10.3390/sym16050565.

Shi, P., Deng, L., Quinn, B.K., 2024. Comparison of the performance equation with its generalized version in describing the temperature-dependent survival of insects and mites. Annals of the Entomological Society of America, 117: 355–366. https://doi.org/10.1093/aesa/saae032

Shi, P., Li, B.L., Wang, J., Mu, Y., Yao, W., Lian, M., Deng, L., Niklas, K.J., 2025. Geometric series exists in nature: evidence from sorted area sequences of floral parts and leaves. Annals of the New York Academy of Sciences, in press. https://doi.org/ 10.1111/nyas.15282

Wang, J., Almutairi, B.O., Wang, L., Shi, P., Yao, W., Niinemets, Ü., 2024. Scaling of cotyledon and primary leaf mass versus area in Acer platanoides seedlings under different light conditions. AoB Plants, 16: plae054, https://doi.org/10.1093/aobpla/plae054

Wang, L., He, K., Hui, C., Ratkowsky, D.A., Yao, W., Lian, M., Wang, J., Shi, P., 2024. Comparison of four performance models in quantifying the inequality of leaf and fruit size distribution. Ecology and Evolution, 14: e11072. https://doi.org/10.1002/ece3.11072

Wang, C.K., Heng, Y., Xu, Q.W., Zhou, Y.J., Sun, X.Y., Wang, Y.C., Yao, W.H., Lian, M., Li, Q.Y., Zhang, L.Y., Niinemets, Ü., Hӧlscher, D., Gielis, J., Niklas, K.J., Shi, P.J., 2024. Scaling relationships between the total number of the leaves and the total leaf area per culm of two dwarf bamboo species. Ecology and Evolution, 14: e70002. https://doi.org/10.1002/ece3.70002

Wang, J., Shi, P., Yao, W., Wang, L., Li, Q., Tan, R., Niklas, K.J., 2024. The scaling relationship between perianth fresh mass and area: proof of concept using Magnolia × soulangeana Soul.-Bod. Trees − Structure and Function, 38: 241–249.

Yan, C., Shi, P., Yu, K., Guo, X., Lian, M., Miao, Q., Wang, L., Yao, W., Zheng, Y., Zhu, F., Niklas, K.J., 2024. Using the Montgomery-Koyama-Smith equation to calculate the stomatal area per unit lamina area for 12 Magnoliaceae species. Annals of Botany, 134: 1151–1163. https://doi.org/10.1093/aob/mcae165

Yao, W., Hui, C., Wang, L., Wang, J., Gielis, J., Shi, P., 2024. Comparison of the performance of two polar equations in describing the geometries of elliptical fruits. Botany Letters, 171: 337–347. https://doi.org/10.1080/23818107.2024.2350014

Yao, W.H., Shi, P.J., Wang, J.F., Mu, Y.Y., Cao, J.J., Niklas, K.J., 2024. The "leafing intensity premium" hypothesis and the scaling relationships of the functional traits of bamboo species. Plants, 13: 2340. https://doi.org/ 10.3390/plants13162340

Zhang, L., Quinn, B.K., Hui, C., Lian, M., Gielis, J., Gao, J., Shi, P.J., 2024. New indices to balance α-diversity against tree size inequality. Journal of Forestry Research, 35: 31. https://doi.org/10.1007/s11676-023-01686-3

Zhao, C., Wang, J., Mu, Y., Yao, W., Wang, H., Shi, P., 2024. Testing the validity of the Montgomery– Koyama–Smith equation for calculating the total petal area per flower using two Rosaceae species. Plants, 13: 3499. https://doi.org/ 10.3390/plants13243499

2025

Meng, Y., Ratkowsky, D.A., Yao, W., Heng, Y., Shi, P., 2025. The geometric series hypothesis of leaf area distribution and its link to the calculation of the total leaf area per shoot of Sasaella kongosanensis 'Aureostriatus'. Plants, 14: 73. https://doi.org/10.3390/ plants14010073

Mu, Y., Shi, P., Wang, J., Yao, W., Chen, L., Hölscher, D., Niklas, K.J., 2025. Testing the relationship among tepal area, length, and width using four Magnolia species. Trees – Structure and Function, 39: 19. https://doi.org/10.1007/s00468-025-02600-6

没时间吹。

没兴趣上。