• 中文核心期刊
  • CSCD来源期刊
  • 中国科技核心期刊
  • CA、CABI、ZR收录期刊

留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

巨菌草叶片形态特征及其估算模型构建

卜建超 周童晖 林占熺 白妮妮 夏婕 林辉 林冬梅 刘凤山

卜建超,周童晖,林占熺,等. 巨菌草叶片形态特征及其估算模型构建 [J]. 福建农业学报,2022,37(4):538−546 doi: 10.19303/j.issn.1008-0384.2022.004.015
引用本文: 卜建超,周童晖,林占熺,等. 巨菌草叶片形态特征及其估算模型构建 [J]. 福建农业学报,2022,37(4):538−546 doi: 10.19303/j.issn.1008-0384.2022.004.015
BU J C, ZHOU T H, LIN Z X, et al. Models for Estimating Morphological Characteristics of Pennisetum giganteum Leaves [J]. Fujian Journal of Agricultural Sciences,2022,37(4):538−546 doi: 10.19303/j.issn.1008-0384.2022.004.015
Citation: BU J C, ZHOU T H, LIN Z X, et al. Models for Estimating Morphological Characteristics of Pennisetum giganteum Leaves [J]. Fujian Journal of Agricultural Sciences,2022,37(4):538−546 doi: 10.19303/j.issn.1008-0384.2022.004.015

巨菌草叶片形态特征及其估算模型构建

doi: 10.19303/j.issn.1008-0384.2022.004.015
基金项目: 福建省科技重大专项(2021NZ029009);福建农林大学校内学科交叉融合推动菌草科学及产业高质量发展项目(XKJC-712021030)
详细信息
    作者简介:

    卜建超(1997−),男,硕士研究生,研究方向:菌草水分高效利用(E-mail:bujianchao@yeah.net

    通讯作者:

    林占熺(1943−),男,研究员,博士生导师,研究方向:菌草技术研究及推广(E-mail:lzxjuncao@163.com

    刘凤山(1986−),男,博士,研究方向:农业生态(E-mail:liufs.11b@igsnrr.ac.cn

  • 中图分类号: S 543

Models for Estimating Morphological Characteristics of Pennisetum giganteum Leaves

  • 摘要:   目的  叶片是植物的重要器官,但巨菌草叶片的形态特征尚缺乏基础的数据支撑。利用巨菌草叶片相关指标构建叶面积和叶鲜重模型可为巨菌草形态特征研究提供便捷方法。  方法  采集巨菌草叶片长度、宽度、叶面积和叶鲜重等信息,对巨菌草叶片长度、叶片宽度、叶片鲜重、叶面积指标进行相关性分析,利用叶片长度、叶片宽度、叶片长宽积、叶片长度-叶片宽度、叶片长度+叶片宽度、叶长2、叶宽2等7个指标,采用一元线性回归模型、二元线性回归模型、二次三项式模型对叶面积和叶鲜重进行模型的构建。  结果  巨菌草叶片长度、叶片宽度、叶片鲜重、叶面积指标间的相关性较好,指标间相关性系数在0.74~0.91。最适宜巨菌草叶面积的估算模型为:yA=0.72xPR2=0.99,yA代表叶面积,xP代表叶片长宽积),叶片鲜重最优估算模型为:yF=0.02xPR2=0.96,其中yF代表叶鲜重,xP代表叶片长宽积)。验证结果表明,实测叶面积与估测叶面积线性回归拟合较好R2均为0.99,叶面积和叶鲜重的RMSE分别为18.67 cm2、0.67 g。  结论  本研究得出了巨菌草叶面积和叶鲜重的最优模型,对于菌草研究基础数据的扩充有一定的理论意义。
  • 图  1  用于巨菌草叶面积测量的实例图片

    注:A图代表叶片RGB图片;B图代表叶片8-bit;C图代表巨菌草叶面积获取区域

    Figure  1.  Sample photo for measuring leaf area of P. giganteum

    Note: Fig. A: RGB picture of leaf blade; Fig. B: leaf blade 8-bit; Fig. C: acquisition area on leaf.

    图  2  巨菌草叶面积一元函数模型的构建

    Figure  2.  Construction of univariate function model for P. giganteum leaf area

    图  3  巨菌草叶面积二次三项式拟合图

    Figure  3.  Quadratic trinomial fitting diagram of P. giganteum leaf area

    图  4  巨菌草叶面积拟合模型拟合度检验

    Figure  4.  Fitting of model for estimating P. giganteum leaf area

    图  5  巨菌草叶片鲜重线性模型

    Figure  5.  Linear model for estimating fresh weight of P. giganteum leaves

    图  6  巨菌草叶片鲜重二次三项式拟合

    Figure  6.  Quadratic trinomial fitting on estimating fresh weight of P. giganteum leaves

    图  7  巨菌草叶片鲜重拟合模型拟合度检验

    Figure  7.  Fitting of model for estimating fresh weight of P. giganteum leaves

    表  1  巨菌草叶相关指标总体分布特征

    Table  1.   Overall distribution of related parameters on P. giganteum leaves

    统计量 Statistics指标 Indexes
    叶片长度
    Leaf length/cm
    叶片宽度
    Leaf width/cm
    叶片鲜重
    Leaf fresh weight/g
    叶面积
    Leaf area/cm2
    均值 Mean 93.32 3.34 6.07 223.62
    标准差 Standard deviation 21.61 1.00 2.86 110.47
    标准误 Standard Error 1.96 0.09 0.26 10.04
    均值的95%置信区间上限
    Lower 95%CI of mean
    96.81 3.51 6.53 242.35
    均值的95%置信区间下限
    Upper 95%CI of Mean
    89.21 3.16 5.55 203.4
    偏度 Skewness −0.99 0.54 0.18 0.46
    峰度 Kurtosis 0.64 0.16 −0.55 −0.08
    变异系数
    Coefficient of variation
    0.23 0.30 0.47 0.49
    平均绝对偏差
    Mean absolute deviation
    −0.10 0.00 0.00 −0.49
    最小值 Minimum 25 1 1 24
    最大值 Maximum 130 6 12 511
    下载: 导出CSV

    表  2  巨菌草叶片相关参数的相关性(Pearson)分析

    Table  2.   Pearson analysis of related parameters on P. giganteum leaves

    指标
    Indexes
    叶片长度
    Leaf length
    叶片宽度
    Leaf width
    叶片鲜重
    Leaf fresh weight
    叶面积
    Leaf area
    叶片长度
    Leaf length
    1
    叶片宽度
    Leaf width
    0.74** 1
    叶片鲜重
    Leaf fresh weight
    0.81** 0.90** 1
    叶面积 Leaf area 0.83** 0.91** 0.91** 1
    注:**在0.01水平上显著相关。
    Note: ** significant correlation at 0.01 level.
    下载: 导出CSV
  • [1] 林占熺. 菌草学[M]. 北京: 国家行政学院出版社, 2013.
    [2] 苏德伟, 林辉, 罗海凌, 等. 自然生境低温胁迫对留茬巨菌草再生特性的影响及再生能力评价 [J]. 西南农业学报, 2021, 34(4):747−754.

    SU D W, LIN H, LUO H L, et al. Field evaluation of response and resistance to regeneration of stubble Pennisetum sp. after low temperature in natural habitat [J]. Southwest China Journal of Agricultural Sciences, 2021, 34(4): 747−754.(in Chinese)
    [3] 刘凤山, 林辉, 林兴生, 等. 基于气象条件的巨菌草蒸散发动态研究 [J]. 水资源与水工程学报, 2018, 29(3):243−248. doi: 10.11705/j.issn.1672-643X.2018.03.41

    LIU F S, LIN H, LIN X S, et al. Dynamic study on the evapotranspiration of Giant Juncao based on meteorological condition [J]. Journal of Water Resources and Water Engineering, 2018, 29(3): 243−248.(in Chinese) doi: 10.11705/j.issn.1672-643X.2018.03.41
    [4] 薛志香, 曾峰, 曹秀明, 等. 鲜菌草栽培平菇配方筛选 [J]. 北方园艺, 2019(6):147−150.

    XUE Z X, ZENG F, CAO X M, et al. Medium formulae screening for Pleurotus ostreatus cultivation with fresh JUNCAO [J]. Northern Horticulture, 2019(6): 147−150.(in Chinese)
    [5] 陈晓斌, 张双双, 林冬梅, 等. 菌草栽培杏鲍菇培养基配方筛选试验 [J]. 北方园艺, 2017(7):146−149.

    CHEN X B, ZHANG S S, LIN D M, et al. Screening test of culture medium for Pleurotus eryngii cultivation with JUNCAO [J]. Northern Horticulture, 2017(7): 146−149.(in Chinese)
    [6] 林兴生, 王泽辉, 马运龙, 等. 鲜菌草工厂化栽培银耳物质转化特性研究 [J]. 四川大学学报(自然科学版), 2021, 58(5):138−144.

    LIN X S, WANG Z H, MA Y L, et al. Study on characteristics of matter transformation of Tremella fuciformis in factory cultivation with fresh Juncao [J]. Journal of Sichuan University (Natural Science Edition), 2021, 58(5): 138−144.(in Chinese)
    [7] 刘凤山, 林辉, 林兴生, 等. 巨菌草对生态脆弱区治理与修复的研究进展 [J]. 贵州农业科学, 2017, 45(7):111−113. doi: 10.3969/j.issn.1001-3601.2017.07.025

    LIU F S, LIN H, LIN X S, et al. Review on control and remediation of ecologically vulnerable area with Pennisetum giganteum sp [J]. Guizhou Agricultural Sciences, 2017, 45(7): 111−113.(in Chinese) doi: 10.3969/j.issn.1001-3601.2017.07.025
    [8] 潘介春, 黄幸, 邓英毅, 等. 回归方程法测定两个龙眼品种叶面积研究 [J]. 亚热带植物科学, 2019, 48(2):155−160. doi: 10.3969/j.issn.1009-7791.2019.02.010

    PAN J C, HUANG X, DENG Y Y, et al. Leaf area measurement of two cultivars of longan by regression equation method [J]. Subtropical Plant Science, 2019, 48(2): 155−160.(in Chinese) doi: 10.3969/j.issn.1009-7791.2019.02.010
    [9] 张萌, 张德安, 鲁晓燕, 等. 枣树叶面积估算模型构建 [J]. 果树学报, 2020, 37(12):1964−1973.

    ZHANG M, ZHANG D A, LU X Y, et al. Establishment of leaf area estimation model for jujube trees [J]. Journal of Fruit Science, 2020, 37(12): 1964−1973.(in Chinese)
    [10] DEMIRSOY H. Leaf area estimation in some species of fruit tree by using models as a non-destructive method [J]. Fruits, 2009, 64(1): 45−51. doi: 10.1051/fruits/2008049
    [11] CHEN J M, RICH P M, GOWER S T, et al. Leaf area index of boreal forests: Theory, techniques, and measurements [J]. Journal of Geophysical Research: Atmospheres, 1997, 102(D24): 29429−29443. doi: 10.1029/97JD01107
    [12] MARTENS S N, USTIN S L, ROUSSEAU R A. Estimation of tree canopy leaf area index by gap fraction analysis [J]. Forest Ecology and Management, 1993, 61(1/2): 91−108.
    [13] HYER E J, GOETZ S J. Comparison and sensitivity analysis of instruments and radiometric methods for LAI estimation: Assessments from a boreal forest site [J]. Agricultural and Forest Meteorology, 2004, 122(3/4): 157−174.
    [14] LEVY P E, JARVIS P G. Direct and indirect measurements of LAI in millet and fallow vegetation in HAPEX-Sahel [J]. Agricultural and Forest Meteorology, 1999, 97(3): 199−212. doi: 10.1016/S0168-1923(98)00092-6
    [15] SEZER I, ONER F, MUT Z. Non-destructive leaf area measurement in maize (Zea mays L.) [J]. Journal of Environmental Biology, 2009, 30(5): 785−790.
    [16] POSSE R P, DE SOUSA E F, BERNARDO S, et al. Total leaf area of Papaya trees estimated by a nondestructive method [J]. Scientia Agricola, 2009, 66(4): 462−466. doi: 10.1590/S0103-90162009000400005
    [17] ZHANG N, YU G R, YU Z L, et al. Simulation of leaf area index and biomass at landscape scale [J]. Journal of Geographical Sciences, 2003, 13(2): 139−152. doi: 10.1007/BF02837452
    [18] 张传来, 尤扬, 贾文庆, 等. 新高梨叶面积测量相关性分析及回归方程的建立 [J]. 贵州农业科学, 2009, 37(12):171−174. doi: 10.3969/j.issn.1001-3601.2009.12.052

    ZHANG C L, YOU Y, JIA W Q, et al. Analysis on measure correlation of Xingao pear's leaf area and establishment of its regression equation [J]. Guizhou Agricultural Sciences, 2009, 37(12): 171−174.(in Chinese) doi: 10.3969/j.issn.1001-3601.2009.12.052
    [19] 冀雅珍. 一种新型玉米叶面积估算方法 [J]. 科技情报开发与经济, 2008(11):214−215.

    JI Y Z. A new method for estimating the corn(Zea mays) leaf area [J]. Sci-Tech Information Development & Economy, 2008(11): 214−215.(in Chinese)
    [20] 李明, 王季槐, 沈海亮, 等. 甘草叶面积的估测方法 [J]. 贵州科学, 2009, 27(3):10−19. doi: 10.3969/j.issn.1003-6563.2009.03.002

    LI M, WANG J H, SHEN H L, et al. Measuring methods for leaf area of liquorice [J]. Guizhou Science, 2009, 27(3): 10−19.(in Chinese) doi: 10.3969/j.issn.1003-6563.2009.03.002
    [21] 卜海东, 顾蔚, 齐永平, 等. 基于图像处理华中五味子叶面积的回归测算 [J]. 植物生理学通讯, 2008, 44(3):543−547.

    BU H D, GU W, QI Y P, et al. Regressive estimation of leaf area of Schisandra sphenanthera rehd. et Wils. based on image processing [J]. Plant Physiology Communications, 2008, 44(3): 543−547.(in Chinese)
    [22] 王忠芝, 张金瑞. 基于图像处理的叶面积测量方法 [J]. 微计算机应用, 2010, 31(5):68−72.

    WANG Z Z, ZHANG J R. A measurement approach of leaf area based on digital image processing [J]. Microcomputer Applications, 2010, 31(5): 68−72.(in Chinese)
    [23] 福州市闽侯县人民政府气象数据[CP/DK]. 2017-08. http://www.minhou.gov.cn/xjwz/mlmh/mhgk/201708/t20170823_1625586.htm.
    [24] 贾雨雷, 廖真, 汪丽芳, 等. 化肥减量配施菌草固氮菌肥对巨菌草生长、营养品质及土壤养分的影响 [J]. 草业学报, 2021, 30(3):215−223. doi: 10.11686/cyxb2020047

    JIA Y L, LIAO Z, WANG L F, et al. Effects of chemical fertilizer reduction and co-application with a JUNCAO nitrogen-fixing biofertilizer on growth and nutritional quality of Pennisetum giganteum and soil nutrient status [J]. Acta Prataculturae Sinica, 2021, 30(3): 215−223.(in Chinese) doi: 10.11686/cyxb2020047
    [25] 刘小锐, 黄成东, 祝红伟. 叶用莴苣叶面积测定方法的研究 [J]. 中国蔬菜, 2020(12):78−81.

    LIU X R, HUANG C D, ZHU H W. Studies on measuring methods of leaf area in lettuce [J]. China Vegetables, 2020(12): 78−81.(in Chinese)
    [26] 戴志聪, 杜道林, 司春灿, 等. 用扫描仪及Image J软件精确测量叶片形态数量特征的方法 [J]. 广西植物, 2009, 29(3):342−347. doi: 10.3969/j.issn.1000-3142.2009.03.013

    DAI Z C, DU D L, SI C C, et al. A method to exactly measure the morphological quantity of leaf using Scanner and Image J Software [J]. Guihaia, 2009, 29(3): 342−347.(in Chinese) doi: 10.3969/j.issn.1000-3142.2009.03.013
    [27] 张选, 彭小峰, 刘素华, 等. 一种利用ImageJ软件对棉花叶面积进行测量的方法 [J]. 新疆农垦科技, 2019, 42(10):36−37. doi: 10.3969/j.issn.1001-361X.2019.10.024

    ZHANG X, PENG X F, LIU S H, et al. A method for measuring cotton leaf area using image J software [J]. Xinjiang Farm Research of Science and Technology, 2019, 42(10): 36−37.(in Chinese) doi: 10.3969/j.issn.1001-361X.2019.10.024
    [28] 周元刚, 李华龙, 蒋腾聪, 等. 夏玉米叶片形状系数的时间和空间变异 [J]. 中国农业科学, 2016, 49(23):4520−4530. doi: 10.3864/j.issn.0578-1752.2016.23.005

    ZHOU Y G, LI H L, JIANG T C, et al. Temporal and spatial variations of leaf shape coefficients of summer maize [J]. Scientia Agricultura Sinica, 2016, 49(23): 4520−4530.(in Chinese) doi: 10.3864/j.issn.0578-1752.2016.23.005
    [29] 林丽仙, 连张飞, 苏明华, 等. 大花蕙兰苗期叶面积的估算方法 [J]. 热带作物学报, 2007, 28(3):15−18. doi: 10.3969/j.issn.1000-2561.2007.03.004

    LIN L X, LIAN Z F, SU M H, et al. Leaf area estimation of Cymbidium at seeding stage [J]. Chinese Journal of Tropical Crops, 2007, 28(3): 15−18.(in Chinese) doi: 10.3969/j.issn.1000-2561.2007.03.004
    [30] 冉邦定, 周桓武, 张崇范. 用叶片长宽比值计算烤烟叶面积指数 [J]. 中国烟草, 1981, 2(2):27−28.

    RAN B D, ZHOU H W, ZHANG C F. Calculation of leaf area index of flue-cured Tobacco by leaf length width ratio [J]. China Tobacco, 1981, 2(2): 27−28.(in Chinese)
    [31] 巫娟, 胡姝珍, 茅思雨, 等. 基于叶片形态的毛竹单叶叶面积模型 [J]. 林业科学, 2020, 56(8):47−54. doi: 10.11707/j.1001-7488.20200806

    WU J, HU S Z, MAO S Y, et al. Single leaf area model of Phyllostachys edulis based on leaf morphology [J]. Scientia Silvae Sinicae, 2020, 56(8): 47−54.(in Chinese) doi: 10.11707/j.1001-7488.20200806
    [32] 彭曦, 闫文德, 王光军, 等. 杉木叶形态特征与叶面积估算模型 [J]. 生态学报, 2018, 38(10):3569−3580.

    PENG X, YAN W D, WANG G J, et al. Leaf morphological characteristics and leaf area estimation model for Cunninghamia lanceolata [J]. Acta Ecologica Sinica, 2018, 38(10): 3569−3580.(in Chinese)
    [33] 文泽华, 王南, 徐学华. 木兰围场黑桦叶形态特征与叶面积估算模型研究 [J]. 林业与生态科学, 2021, 36(4):370−378,390.

    WEN Z H, WANG N, XU X H. Study on leaf morphological characteristics and leaf area estimation model of Betula Dahurica in Mulan Weichang [J]. Forestry and Ecological Sciences, 2021, 36(4): 370−378,390.(in Chinese)
  • 加载中
图(7) / 表(2)
计量
  • 文章访问数:  686
  • HTML全文浏览量:  198
  • PDF下载量:  22
  • 被引次数: 0
出版历程
  • 收稿日期:  2021-12-16
  • 修回日期:  2022-03-27
  • 网络出版日期:  2022-04-24
  • 刊出日期:  2022-04-28

目录

    /

    返回文章
    返回