水肥胁迫对基于时间序列图像的苗木表型信息的影响

doi:10.11707/j.1001-7488.LYKX20210742

摘要/Abstract

摘要：

目的: 构建多视角植物表型信息采集平台，以固定时间间隔获取水肥胁迫处理下苗木图像，从形态变化中提取表征簸箕柳苗木水肥胁迫的应激反应表型参数，为苗木栽培和精确水肥管理提供参考。方法: 构建一套多视角表型信息采集平台，探讨一种基于时间序列图像的苗木表型信息提取方法，采用近似拼接算法将局部植株图像有效拼接成完整植株图像，基于多视角图像提出株高、主茎直径等表型信息的提取算法及株高可视化算法。以簸箕柳为研究对象开展水肥胁迫试验，设置水分因素和氮肥因素，包括正常水分处理与干旱胁迫处理2个水平以及6个氮肥水平，对比观察时间序列下簸箕柳株高和主茎直径的变化情况。结果: 1）图像近似拼接算法相较于传统直接拼接算法和暴力拼接算法在多视角表型信息采集平台上具有更好适应性，能够很好消除拼接痕迹，实现图像无缝拼接。2）多视角下株高提取算法的决定系数（R²）为0.96、主茎直径提取算法的R²为0.74，能够解决单视角下因植物叶片遮挡导致的株高测量不准确和主茎直径无法测量等问题。3）整个生长周期时间序列下，簸箕柳苗木平均株高和主茎直径随时间的变化受不同水分处理显著影响，正常水分处理簸箕柳苗木平均株高和主茎直径分别为33.6 cm和2.49 mm，干旱胁迫处理簸箕柳苗木平均株高和主茎直径分别为22.8 cm和2.25 mm，正常水分处理簸箕柳苗木平均株高和主茎直径相比干旱胁迫处理高47.4%和10.7%。4）整个生长周期时间序列下，簸箕柳苗木平均株高和主茎直径在6个氮肥水平呈现出显著差异性，随氮肥含量增加呈先增加后降低趋势。正常水分处理下，除T5处理组外，其他组平均株高和主茎直径均高于CK处理组，其中T2处理组生长速率最高，速率分别为1.92 cm·d^?1和0.075 mm·d^?1；干旱胁迫处理下，T1、T2处理组平均株高高于CK处理组，其中T2处理组平均生长速率最高，平均株高和主茎直径生长速率分别为1.05 cm·d^?1和0.035 mm·d^?1。结论: 基于连续图像序列的分析处理方法在监测苗木表型信息中具有可靠性和实用性。当氮肥含量不足时，植物生长速度放缓，当氮肥含量过量时，会抑制植物生长速度甚至出现烧苗等情况。综合株高与主茎直径，正常水分处理下T2处理组（尿素每盆0.1 g，扦插种植第40天再施加尿素每盆0.1 g）为最佳施肥指标。

关键词: 表型信息, 时间序列图像, 株高, 主茎直径, 水肥胁迫

Abstract:

Objective: Constructing a multi-view plant phenotypic information collection platform, image data of seedlings under water and fertilizer stress were obtained at fixed time intervals, and phenotypic parameters were extracted from morphological changes to characterize the stress response to water and fertilizer stress of Salix suchowensis seedlings, providing reference for cultivating seedling and managing water and fertilizer accurately. Method: This paper constructed a multiple view phenotypic information collection platform and proposed a seedling phenotypic extraction method based on time sequence images by adopting the approximate stitching algorithm to realize the local image effective joining together into a complete image, phenotypic information such as plant height and major branch diameter extraction algorithm and plant height visualization algorithm were put forward based on image multiple points of view. In this paper, a water-fertilizer experiment was carried out with Salix suchowensis as the research object, and water and nitrogen factors were set up, including two levels of normal water treatment and drought stress treatment, and six levels of nitrogen concentration. The changes of plant height and main branch diameter of Salix suchowensis under time series were compared and observed. Result: 1） Compared with the traditional direct mosaic algorithm and violent mosaic algorithm, the approximate image mosaic algorithm proposed in this paper has better adaptability on the multi-perspective phenotypic information collection platform, and can eliminate the stitching traces well and realize the seamless image mosaic. 2） The deterministic coefficient R² of the plant height algorithm proposed in this paper is 0.96 under multi-view images, and that of the main branch diameter extraction algorithm under multi-perspective images is 0.74, which solves the problems of inaccurate measurement of plant height and un measurement of main branch diameter caused by plant leaf occlusion under single-perspective conditions. 3) In the time series of the whole growth cycle, the changes of average plant height and main branch diameter of Salix suchowensis seedlings with time were significantly affected by different water treatments. Under normal water treatment, the average plant height and main branch diameter of Salix suchowensis seedlings were 33.6 cm and 2.49 mm respectively. The average plant height and main branch diameter of Salix suchowensis seedlings were 22.8 cm and 2.25 mm, respectively. The average plant height and main branch diameter under normal water treatment were 47.4% and 10.7% which were higher than those under drought stress. 4） In the time series of the whole growth cycle, average plant height and main branch diameter of Salix suchowensis seedlings showed differences under gradient nitrogen fertilizer, and plant height and main branch diameter increased first and then decreased with nitrogen content. Under normal water treatment, except T5 treatment group, the average plant height and average main branch diameter of other groups were higher than CK treatment group, and T2 treatment group had the highest growth rate, which was 1.92 cm·d^?1 and 0.075 mm·d^?1. Under drought stress, the average plant height in T1 and T2 treatment groups was higher than that in CK treatment group, and the average growth rate in T2 treatment group was the highest, which was 1.05 cm·d^?1 and 0.035 mm·d^?1. Conclusion: The method based on continuous image sequence is reliable and practical in monitoring seedling phenotypic characteristics. When nitrogen content is insufficient, the plant growth rate will slow down, and when nitrogen content is excessive, the plant growth rate will be inhibited and even seedlings will be burned. Considering the two growth indexes of plant height and main branch diameter, T2 treatment group (urea 0.1 g per pot, urea 0.1 g per pot on the 40th day of cuttage planting) was the best fertilization index under normal water treatment.

Key words: phenotypic information, time series image, plant height, main branch diameter, water and fertilizer stress

中图分类号:

TP391.1

杨琨琪,张慧春,张萌,边黎明. 水肥胁迫对基于时间序列图像的苗木表型信息的影响[J]. 林业科学, 2023, 59(5): 61-70.

Kunqi Yang,Huichun Zhang,Meng Zhang,Liming Bian. Effects of Water and Fertilizer Stress on Seedling Phenotypic Information Based on Time Series Images[J]. Scientia Silvae Sinicae, 2023, 59(5): 61-70.

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