辽北苹果叶片氮含量、近红外光谱与图像数据集

doi:10.19788/j.issn.2096-6369.200414

Abstract

Abstract:

Nitrogen plays important roles in apple tree growth and development, as well as the apple nutrient content and yield. As a non-destructive testing method, near-infrared spectroscopy has the advantages of convenience and speed. Improved spectroscopy and image-processing technology may be used to construct correlation models of plant biochemical components to achieve rapid non-destructive testing. However, most studies currently only obtain one or two aspects of the near-infrared spectral, mineral element, and imaging data from apple leaves, and there are limited studies in which all three data types have been collected simultaneously. Therefore, here, the leaf spectrum has been constructed, in which the image and mineral element datasets can be re-evaluated and utilized in future research. In this study, the leaves of four types of apple trees and four different ages of ‘Hanfu’ apple trees were collected from the National Apple Resource Nursery in northern Liaoning Province. The leaves were analyzed to obtain near-infrared spectroscopic data, high-definition images, and nitrogen contents, providing data supporting the use of non-destructive methods to determine the nutritional contents of apple leaves. The results provide a foundation for the future use of high-altitude remote-sensing technology in fruit production.

Key words: apple, near-infrared spectrum, image, nitrogen, standard leaves, scientific data

CLC Number:

Xiaoli Wang, Qianhao Hu, Jingchao Fan, Zhuang Li. Spectra, Images and Nitrogen Contents of Apple Leaves in Northern Liaoning Province, China[J].Journal of Agricultural Big Data, 2020, 2(4): 113-119.

Figures/Tables 4

Fig.1

Fig.2

Tab.1

References 12

1	Rustioni Laura, Grossi Daniele, Brancadoro Lucio, et al. Iron, magnesium, nitrogen and potassium deficiency symptom discrimination by reflectance spectroscopy in grapevine leaves[J]. Scientia Horticulturae. Volume241, 18 November2018, Pages 152-159.
2	徐娟,刘刚,欧全宏,等.不同颜色蚕豆的红外光谱分析及元素含量测定[J].湖北农业科学,2015,54(13):3244-3247.
	Xu J, Liu G, Ou Q H, et al. Infrared Spectrum Analysis and Elements Determination of Broad Bean of Different Colors[J].Hubei Agricultural Sciences,2015,54(13):3244-3247.
3	吕海鹏. 普洱茶品质的仪器鉴定研究[D].浙江大学,2013.
	Lv H P. Studies on instrumental assessment of Pu-erh tea quality[D].ZHEJIANG UNIVERSITY,2013.
4	孟庆龙,尚静,黄人帅,等.苹果可溶性固形物的可见/近红外无损检测[J].食品与发酵工业,2020,46(19):205-209.
	Meng Q L, Shang J,Huang R S,et al.Nondestructive detection of soluble solids content in apple by visible-near infrared spectroscopy[J].Food and Fermentation Industries,2020,46(19):205-209.
5	安静,姚国清,朱西存.苹果叶片氮素含量高光谱检测研究[J].国土资源遥感,2016,28(02):67-71.
	An J, Yao G Q, Zhu X C.Study of hyperspectral detection for nitrogen content of apple leaves[J].Remote Sensing for Land & Resources,2016,28(02):67-71.
6	房贤一. 不同物候期的苹果树冠层氮素含量高光谱估测研究[D].山东农业大学,2015.
	Fang X Y. Hyperspectral Estimation of Apple Tree Canopy Nitrogen Contents at Different Phenological Phases[D].SHANDONG AGRICULTURAL UNIVERSITY,2015.
7	李丙智,李敏夏,周璇,等.苹果树叶片全氮含量高光谱估算模型研究[J].遥感学报,2010,14(04):761-773.
	Li B Z, Li M X, Zhou X,et al.Hyperspectral estimation models for nitrogen contents of apple leaves[J].Journal of Remote Sensing,2010,14(04):761-773.
8	夏雪,李壮,吴定峰,等.苹果品种标准叶片图像和光谱数据集[J/OL].中国科学数据,2016,1(1).
	Xia X, Li Z, Wu D F,et al. An image and spectral dataset for standard leaves of apple varieties[J/OL].China Scientific Data,2016,1(1)
9	郑艳梅,黄光耀,芦碧波,等.结合深度学习和引导滤波的苹果叶片图像分割[J].中国农业大学学报,2020,25(09):112-120.
	Zheng Y M,Huang G Y,Lu B B,et al.An apple leaf image segmentation algorithm using deep learning and guided filtering[J]. Journal of China Agricultural University,2020,25(09):112-120.
10	赵良斌,曹卫彬. 地物光谱仪在野外光谱测量中的使用[J].新疆农机化,2008(1):41-42.
	Zhao L B,Cao W B. Use of ground feature spectrometer in field spectrum measurement[J].Xinjiang Agricultural Mechanization,2008(1):41-42.
11	Beers R. V., Aernouts B., Gutiérrez L. L., et al. Optimal illumination-detection distance and detector size for predicting braeburn apple maturity from Vis/NIR laser reflectance measurements[J].Food and Bioprocess Technology,2015,8(10):2123-2136.
12	王晓丽. 基于光谱分析技术的果树花、叶理化性状信息提取及建模[D].北京林业大学,2017.
	Wang X L. Extraction and Modeling of Physical and Chemical Properties of Fruit Trees Flowers and Leaves Based on Spectral Analysis Technique[D]. Beijing Forestry University,2017.

数据库（集）中文名称	辽北苹果叶片氮元素含量、近红外光谱与图像数据集
数据库（集）英文名称	Data sets of spectra, images and nitrogen content of apple leaves in northern Liaoning Province
数据作者	王晓丽、胡乾浩、樊景超、李壮
通讯作者	樊景超（fanjingchao@caas.cn）
数据采集时间	2016年	采集区域	中国辽宁兴城
数据格式	.asd, .jpeg,.xlsx	数据量	2.93GB
数据服务系统网址	http://www.agridata.cn/data.html#/paperdetail?id=4361
基金项目	中国农业科学院创新工程：数据整合与应用服务研究(2020CX017)
数据库（集）组成	数据集主要包含嘎啦、华红、富士和4种不同树龄寒富苹果树叶片的光谱、图像和氮含量数据，其中： 1. 近红外光谱数据量349MB； 2. 叶片图像数据量2.59GB； 3. 氮元素含量数据包含70条。

品种名称	采集日期	采集次数	滴定体积	毫克氮	氮含量
嘎啦（2012年定植）	2016/5/18	测试1	0.533	0.747	2.490
嘎啦（2012年定植）	2016/5/18	测试2	0.515	0.721	2.403
嘎啦（2012年定植）	2016/5/18	测试3	0.515	0.721	2.403
嘎啦（2012年定植）	2016/5/18	平均值	0.521	0.730	2.432
嘎啦（2012年定植）	2016/5/27	测试1	0.485	0.680	2.266
嘎啦（2012年定植）	2016/5/27	测试2	0.483	0.677	2.257
嘎啦（2012年定植）	2016/5/27	测试3	0.471	0.659	2.198
嘎啦（2012年定植）	2016/5/27	平均值	0.480	0.672	2.240
嘎啦（2012年定植）	2016/6/3	测试1	0.544	0.762	2.539
嘎啦（2012年定植）	2016/6/3	测试2	0.544	0.762	2.539
嘎啦（2012年定植）	2016/6/3	测试3	0.546	0.765	2.548
嘎啦（2012年定植）	2016/6/3	平均值	0.545	0.763	2.542

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Spectra, Images and Nitrogen Contents of Apple Leaves in Northern Liaoning Province, China

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