Use of Selected Spectral Ratios to Assess the Response of Pineapple to Potassium Nutrition

Journal of Smart Science and Technology Pub Date : 2021-09-26 DOI:10.24191/JSST.V1I1.11

S. K. Balasundram, Y. Chong

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Abstract

Potassium (K) nutrition in pineapple grown on tropical peat can be problematic due to high precipitation which encourages leaching losses. Non-destructive tools that can assess K deficiency and the accompanying changes in biophysical and biochemical properties within pineapple is a good strategy to employ. In this study, we assessed the biophysical changes in pineapple (var. MD2) in response to different K rates by using a hyperspectral approach. K deficiency was detected at 171 days after planting. Shortage of K also exhibited a shift in red edge towards shorter wavelengths between 500-700 nm. In addition, spectral ranges of 430-680 nm, as well as 680-752 nm were found to be most effective in differentiating spectral response to varying K rates. Three vegetation indices, i.e. Normalized Pigment Chlorophyll Index (NPCI), Plant Senescence Index (PSRI) and Red-edge Vegetation Index (RVSI) were found to best describe K treatment effects on pineapple canopy reflectance. This study could be extended further to include pineapple varieties other than MD2, and also key nutrients, such as N and P, for better fertilizer management in peat-grown pineapple.

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利用选定的光谱比评价菠萝对钾营养的反应

在热带泥炭上生长的菠萝的钾(K)营养可能会出现问题，因为高降水会促进淋失。非破坏性的工具可以评估缺钾和伴随的菠萝生物物理和生化特性的变化是一个很好的策略。在这项研究中，我们利用高光谱方法评估了菠萝(品种MD2)对不同钾率的生物物理变化。植后171 d出现缺钾现象。缺K也表现出红边向500-700 nm之间较短波长偏移。此外，430 ~ 680 nm和680 ~ 752 nm的光谱范围是区分不同K速率下光谱响应的最有效波段。归一化色素叶绿素指数(NPCI)、植物衰老指数(PSRI)和红边植被指数(RVSI)三个植被指数最能描述钾处理对菠萝冠层反射率的影响。这项研究可以进一步扩展到MD2以外的菠萝品种，以及关键的营养成分，如氮和磷，以更好地管理泥炭菠萝。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Smart Science and Technology

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