文章摘要
王 泽 1 ,轩俊伟 1 ,任 财 1 ,麻 浩 1 ,罗艳丽1 ,邓 策 2,梁 燕 3,范亚楠 1.基于高光谱的梭梭幼苗生境土壤氮素含量估算模型研究[J].广东农业科学,2020,47(1):68-76
查看全文    HTML 基于高光谱的梭梭幼苗生境土壤氮素含量估算模型研究
Study on Estimation Model of Soil Nitrogen Content in Haloxylon ammodendron Seedlings Habitats Based on Hyper-spectral Data
  
DOI:10.16768/j.issn.1004-874X.2020.01.010
中文关键词: 梭梭幼苗  光谱特征  土壤氮素  估算模型  荒漠生态系统
英文关键词: Haloxylon ammodendron seedlings  spectral characteristics  soil nitrogen  estimation model  desert ecosystem
基金项目:国家自然科学基金(31800384);新疆维吾尔自治区区域协同创新专项科技援疆计划项目(2017E0237);新疆维吾尔自治区创新环境(人才、基地)建设专项 天山创新团队计划项目(20170201092)
作者单位
王 泽 1 ,轩俊伟 1 ,任 财 1 ,麻 浩 1 ,罗艳丽1 ,邓 策 2,梁 燕 3,范亚楠 1 1. 新疆农业大学草业与环境科学学院 / 新疆土壤与植物生态过程实验室新疆 乌鲁木齐 830052 2. 新疆吉木萨尔县农业农村局新疆 吉木萨尔 831700 3. 新疆生产建设兵团林业工作管理总站新疆 乌鲁木齐 830013 
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中文摘要:
      【目的】研究荒漠区梭梭幼苗植株冠层光谱特征,建立基于高光谱的幼苗生境土壤氮素含量最佳估 测模型,为荒漠区植物与土壤养分状况的实时监测与精确诊断提供重要依据。【方法】以古尔班通古特沙漠梭梭 幼苗及其生境土壤为研究对象,采用便携式光谱仪测定幼苗植株冠层光谱反射率,结合室内分析的幼苗生境土壤 氮素含量,利用统计学方法分析幼苗植株冠层光谱与生境土壤氮素含量之间的关系。【结果】生长期内幼苗植株 冠层光谱反射率一阶微分与土壤氮素含量在 403~485、509~538、677~806、1 489~1 616 nm 波段范围内呈显著正 相关,其中在 428、516、751、801、1 534 nm 处呈极显著正相关,以 751 nm 处的相关系数最大,为最强敏感波长。 【结论】基于植株冠层光谱反射率一阶微分敏感波段建立的反演模型 Y=133.186X751+8.803,其决定系数最大,相 对误差最小,拟合效果最优,预测精度较高,可作为荒漠区梭梭幼苗生境土壤氮素含量的最优估算模型。
英文摘要:
      【Objective】The study aimed to explore the characteristics of canopy spectral reflectance of Haloxylon ammodendron seedlings, establish the best estimation model of soil nitrogen content in seedlings habitats based on hyper spectral, and provide an important basis for real-time monitoring and accurate diagnosis of plant and soil nutrient status in desert area. 【Method】 The H.ammodendron seedlings and soil of habitats in Guerbantonggute Desert were used as theresearch objectives. The canopy spectral reflectance of H.ammodendron seedlings were measured by the portable spectrometer. Combined with the indoor analysis on the soil nitrogen content in seedlings habitats, Stepwise Regression Method was used to analyze the relationship between canopy spectral reflectance and soil nitrogen content in seedlings habitats.【Result】 During the growth period, the relationship between the canopy first derivative spectral reflectance of seedlings and soil nitrogen content was significantly positively correlated in the band ranges of 403-485 nm, 509-538 nm, 677-806 nm and 1 489-1 616 nm. There was extremely significantly positive correlation at the 428 nm, 516 nm, 751 nm, 801 nm and 1 534 nm, and the correlation coefficient was maximum at 751 nm, which was the most sensitive wavelength.【Conclusion】Based on the canopy first derivative spectral reflectance of seedlings at the sensitive bands, the inversion model Y=133.186X751+8.803 is established, which shows that the determination coefficient is maximum and the relative error is minimum, with optimal fitting effect and higher prediction precision. It can be used as the best estimation model for soil nitrogen content in H.ammodendron seedlings habitats.
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