| 傅友强,钟旭华,黄农荣,潘俊峰,胡香玉,胡 锐,李妹娟,梁开明.基于无人机多光谱遥感的水稻冠层光谱特征和氮素营养关系研究[J].广东农业科学,2021,48(10):121-131 |
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基于无人机多光谱遥感的水稻冠层光谱特征和氮素营养关系研究 |
| Research on Relationship Between Canopy SpectralCharacteristics and Nitrogen Nutrient of Rice CultivarsBased on UAV Multispectral Remote Sensing |
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| DOI:10.16768/j.issn.1004-874X.2021.10.013 |
| 中文关键词: 籼稻 无人机多光谱遥感 施氮方式 叶片光谱特征 叶片氮含量 |
| 英文关键词: Indica rice cultivar multispectral remote sensing by unmanned aerial vehicle nitrogen management leaf spectral characteristic leaf nitrogen concentration |
| 基金项目:广东省农业科学院水稻研究所“优谷计划”项目(2021YG04);广东省农业科学院院长基金(202040);广东省农业农村厅乡村振兴战略专项(粤农农计〔2019〕5 号);广东省重点实验室运行费专项(2020B1212060047) |
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| 中文摘要: |
| 【目的】明确华南地区籼稻主栽品种冠层光谱特征与氮素营养关系,为专家决策系统和精准施肥
提供理论基础。【方法】以美香占 2 号(MXZ2H)和吉丰优 1002(JFY1002)为试材,设置施氮 0 kg/hm2
(N0)、
150 kg/hm2
(N150)、210 kg/hm2
(N210)等 3 个处理,采用习惯施肥法,在 JFY1002 中增设施氮 180 kg/hm2
(N180+)
的水稻“三控”施肥法,研究不同施肥方式下水稻叶片光谱特征与氮素营养的关系。【结果】与 N0 相比,N150
处理下 MXZ2H 和 JFY1002 叶片氮含量分别增加 16.05% 和 13.76%,N210 处理分别增加 24.29% 和 25.00%。
N180+ 处 理 下 JFY1002 叶 片 氮 含 量 与 N210 处 理 相 比 增 加 18.03%。 随 着 叶 片 氮 含 量 的 增 加, 蓝 光 到 红 光
(450~650 nm)波段的叶片反射率逐渐下降,红边到近红外(730~840 nm)波段的叶片反射率逐渐增加,红光
650 nm、近红外 840 nm 处的 MXZ2H 和 JFY1002 叶片反射率差异达显著水平。相关性分析结果表明,MXZ2H 叶
片氮含量与归一化植被指数(NDVI)、绿波段归一化植被指数(GNDVI)、比值植被指数(RVI)、差值植被
指数(DVI)和增强型植被指数(EVI)呈正相关;JFY1002 叶片氮含量与 RVI、EVI、改进非线性植被指数(MNLI)、
DVI 和 NDVI 呈正相关。采用多元线性回归建立了 MXZ2H 和 JFY1002 叶片氮含量反演模型,R2 分别为 0.817 和
0.973,RE 分别为 8.35% 和 3.48%。【结论】建立了华南籼稻品种叶片氮含量反演模型,可为精准施肥作业提供
理论依据和技术指导。 |
| 英文摘要: |
| 【Objective】The relationship between canopy spectral characteristics and nitrogen nutrient of main
cultivated indica rice cultivars in South China was determined, which provided theoretical basis for expert decision- making system and precise fertilization.【Method】A conventional indica rice Meixiangzhan 2(MXZ2H)and a hybrid
indica rice Jifengyou 1002(JFY1002)were selected as test materials, with three nitrogen levels including 0 kg/hm2
(N0), 150 kg/hm2
(N150)and 210 kg/hm2
(N210)using farmers’practice(FP). The “Three Control” fertilization
technique with nitrogen rate of 180 kg/hm2
(N180+)was added in the field experiment with JFY1002 rice cultivar, and
the relationship between rice leaf spectral characteristics and nitrogen nutrient was explored .【Result】Compared with
N0 treatment, the leaf nitrogen concentration of MXZ2H and JFY1002 were increased by 16.05% and 13.76% under N150
treatment, and by 24.29% and 25.00% under N210 treatment, respectively. Leaf nitrogen concentration of JFY1002 was
increased by 18.03% under N180+ treatment compared with that under N210 treatment. With the increase of leaf nitrogen
concentration, the spectral reflectance of leaves from blue band to red band(450-650 nm)were decreased gradually,
but that from red edge band to near infrared band(730-840 nm)were increased gradually. Significant difference was
found in the spectral reflectance of MXZ2H and JFY1002 at 650 nm red band and 840 nm near infrared band. The results
of correlation analysis showed that the leaf nitrogen concentration of MXZ2H was positively correlated with NDVI, GNDVI,
RVI, DVI, and EVI, and that of JFY1002 was positively correlated with RVI, EVI, MNLI, DVI and NDVI. The inversion
models of leaf nitrogen concentration of MXZ2H and JFY1002 were established with R2
of 0.817 and 0.973, and with RE
of 8.35% and 3.48%, respectively.【Conclusion】The study established an inversion model of leaf nitrogen concentration
for indica rice cultivars in South China, which provided theoretical basis and technical guidance for precise fertilization
operation of rice. |
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