Castor seed yield at suboptimal soil moisture: Is it high enough?

Q2 Agricultural and Biological Sciences

Ciencia E Investigacion Agraria Pub Date : 2019-12-17 DOI:10.7764/rcia.v46i3.2046

Mali Nay Buendía Tamariz, R. T. Calzada, I. S. Cohen, Arnoldo Flores Hernández, M. A. V. Valle, A. P. Sandoval

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引用次数: 1

Abstract

This study discusses how soil moisture influences the seed yield of two castor plant varieties in an arid zone in Mexico. An experiment was set up with two factors: soil moisture, with three levels (high = -0.05 MPa, medium = -0.31 MPa and low = -0.91 MPa), and castor variety (Krishna and Rincon). The combination resulted in a factorial 3 × 2 experimental design. The experiment was set up as a randomized block with four replications under a split-plot arrangement, where the whole plots were for soil moisture and the subplots were for the castor variety. The measured variables were plant height (PH), days to flowering of 50% of the plants (DF), leaf area (LA), dry weight (DW), source-sink relationship, harvest index (HI) and seed yield. Data were analyzed by ANOVA, mean tests (HSD at α = 0.05) and regression analysis. There were significant differences in PH, LA, DW, HI and yield among the treatments. The values of PH, LA and DW tended to be higher at higher soil moisture levels than at lower moisture levels. The source strength was generally lower than the sink strength in all the treatments. There were significant differences between the varieties for HI, and the interaction between soil moisture and variety was also significant. Significant differences were found in yield; the Krishna variety had a greater yield than the Rincon variety, but there was only a significant difference between the yield of the Krishna variety cultivated under low soil moisture (5200 kg ha-1) and that of the Rincon variety cultivated under high soil moisture (2570 kg ha-1). The results of this study indicate that castor plants can be cultivated in arid regions at suboptimal soil moisture levels with supplementary irrigation without compromising plant performance or yield.

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在次优土壤湿度条件下的蓖麻种子产量：足够高吗？

本研究探讨了土壤水分如何影响墨西哥干旱区两个蓖麻品种的种子产量。试验采用两个因素：土壤湿度，三个水平（高=-0.05MPa，中=-0.31MPa和低=-0.91MPa）和蓖麻品种（Krishna和Rincon）。该组合产生了因子3×2的实验设计。该实验被设置为一个随机区块，在分裂地块安排下进行四次重复，其中整个地块用于土壤水分，子地块用于蓖麻品种。测量的变量是株高（PH）、50%植株的开花天数（DF）、叶面积（LA）、干重（DW）、源库关系、收获指数（HI）和种子产量。数据通过方差分析、平均检验（HSD为α=0.05）和回归分析进行分析。处理间PH、LA、DW、HI和产量差异显著。土壤水分水平越高，PH、LA和DW的值越高。在所有处理中，源强度通常低于汇强度。不同品种间的HI存在显著差异，土壤水分与品种间的相互作用也显著。产量差异显著；Krishna品种的产量高于Rincon品种，但在低土壤水分（5200 kg ha-1）下培养的Krishna变种的产量与在高土壤水分（2570 kg ha-1。这项研究的结果表明，在不影响植物性能或产量的情况下，通过补充灌溉，可以在土壤湿度不理想的干旱地区种植蓖麻。

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

Ciencia E Investigacion Agraria 农林科学-农业综合

CiteScore

1.40

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： The subject matter that is considered to be appropriate for publication in International Journal of Agriculture and Natural Resources (formerly Ciencia e Investigación Agraria) is all new scientific and technological research in agriculture, animal production, forestry, natural resources and other related fields.