Delaying bud-break on pecan trees: a Bayesian longitudinal multinomial regression approach.

IF 1.2 4区数学 Q2 STATISTICS & PROBABILITY

Journal of Applied Statistics Pub Date : 2024-12-12 eCollection Date: 2025-01-01 DOI:10.1080/02664763.2024.2436007

Dayna P Saldaña Zepeda, Richard Heerema, Ciro Velasco Cruz, William Giese, Joshua Sherman

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引用次数: 0

Abstract

A multivariate Bayesian Probit model is adapted to analyze a longitudinal multiclass-ordinal response, with a linear plateau as the longitudinal model. Measurements on pecan bud growth were collected on irregular time intervals, about a week apart from late March to mid April, using a six-level ordinal scale. The data are from two randomized complete block designs with four blocks each. The experiments were setup and initiated in 2018 in a pecan orchard, at two different locations, to evaluate the effect of two sets of four treatments on delaying growth of recently broken pecan buds to minimize bud loss due to low temperatures. A simulation study was successfully carried out to validate the model implementation. Treatment 3 of Experiment 1 was associated with the greatest reduction in bud growth rate. In Experiment 2, Treatments 2 and 3 had some effect on delaying bud growth. Although treatment effects were not statistically different in either experiment, this paper presents a practical and efficient modeling technique for longitudinal multinomial ordinal data, a common data type in applied agricultural research studies.

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核桃树延迟发芽：贝叶斯纵向多项回归方法。

采用多变量贝叶斯Probit模型分析纵向多类序数响应，纵向模型为线性平台。在3月下旬至4月中旬，每隔一周左右的不规则时间间隔采集山核桃芽生长的测量数据，采用6级有序量表。数据来自两个随机的完整块设计，每个块有四个块。该实验于2018年在两个不同地点的山核桃果园建立并启动，以评估两组四种处理对延迟最近破裂的山核桃芽生长的影响，以尽量减少低温造成的芽损失。仿真研究成功地验证了模型的实现。试验1处理3的芽生长速率降低幅度最大。在试验2中，处理2和处理3有一定的延缓芽生长的效果。尽管两个试验的处理效果没有统计学差异，但本文提出了一种实用而有效的纵向多项有序数据建模技术，这是应用农业研究中常见的数据类型。

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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来源期刊

Journal of Applied Statistics 数学-统计学与概率论

CiteScore

3.40

自引率

0.00%

发文量

126

审稿时长

6 months

期刊介绍： Journal of Applied Statistics provides a forum for communication between both applied statisticians and users of applied statistical techniques across a wide range of disciplines. These areas include business, computing, economics, ecology, education, management, medicine, operational research and sociology, but papers from other areas are also considered. The editorial policy is to publish rigorous but clear and accessible papers on applied techniques. Purely theoretical papers are avoided but those on theoretical developments which clearly demonstrate significant applied potential are welcomed. Each paper is submitted to at least two independent referees.