Root traits and biomass production of drought-resistant and drought-sensitive arabica coffee varieties growing under contrasting watering regimes

IF 1.3 Q3 AGRONOMY Agrosystems, Geosciences & Environment Pub Date : 2024-03-25 DOI:10.1002/agg2.20488
Mohammed Aman, Mohammed Worku, Tesfaye Shimbir, Tessema Astatkie
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Abstract

Drought is a major factor affecting coffee production, and different genotypes exhibit varying degrees of resistance to drought stress. We examined root traits and biomasses of drought-resistant (74110, Angafa, Bultum, Chala, and Gawe) and drought-sensitive (75227, Koti, Melko CH2, Menasibu, and Mokah) Coffea arabica varieties at seedling stage under contrasting watering regimes (water stressed and well watered) for 30 days followed by 15 days of recovery to identify the association between drought resistance and root traits and dry matter partitioning, and the impact of drought stress on growth performance of arabica coffee varieties. We used a split-plot design with three blocks, where watering regime was the whole-plot factor and variety was the subplot factor. During water-stress and recovery periods, the interaction effect between watering regime and variety significantly affected root traits and dry matter partitioning, while the watering-regime main effect affected biomass. We observed a higher (1) tap root diameter (0.34 cm), lateral root number (80.7), and root volume (4.7 cm−3) for 74110; (2) lateral root number (79.3), specific root length (24.8 cm g−1), and root-mass ratio (0.41 g g−1) for Bultum; and (3) root length density (3.3–5.2 cm cm−3), root angle (42.6°–47.8°), root-mass ratio (0.40–0.42 g g−1), and root-shoot ratio (0.67–0.72 g g−1) for Angafa, Chala, and Gawe under water-stressed condition. During both study periods, biomasses were much lower under water-stressed than under well-watered condition. The findings show the association between drought resistance and root traits and dry matter partitioning, and the impact of drought stress on growth performance of young arabica coffee.

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在不同浇水条件下生长的抗旱和对干旱敏感的阿拉比卡咖啡品种的根系特征和生物量产量
干旱是影响咖啡产量的一个主要因素,不同的基因型对干旱胁迫表现出不同程度的抗性。我们研究了抗旱(74110、Angafa、Bultum、Chala 和 Gawe)和对干旱敏感(75227、Koti、Melko CH2、Menasibu 和 Mokah)的阿拉伯咖啡品种在幼苗期在不同浇水制度(缺水和充足浇水)下 30 天后 15 天恢复期的根系性状和生物量,以确定抗旱性与根系性状和干物质分配之间的关系,以及干旱胁迫对阿拉伯咖啡品种生长表现的影响。我们采用了三个区组的分割小区设计,其中浇水制度为全小区因子,品种为子小区因子。在水分胁迫期和恢复期,浇水制度和品种之间的交互效应显著影响根系性状和干物质分配,而浇水制度的主效应则影响生物量。我们观察到,74110 的(1)直根直径(0.34 厘米)、侧根数(80.7)和根量(4.7 厘米-3)较高;(2)侧根数(79.3)、比根长(24.8 厘米 g-1)和根量比(0.(3) 在水分胁迫条件下,Angafa、Chala 和 Gawe 的根长密度(3.3-5.2 厘米-3)、根角(42.6°-47.8°)、根量比(0.40-0.42 克-1)和根-芽比(0.67-0.72 克-1)。在两个研究期间,水分胁迫条件下的生物量都远远低于水分充足条件下的生物量。研究结果表明了抗旱性与根系性状和干物质分配之间的关系,以及干旱胁迫对阿拉比卡咖啡幼苗生长表现的影响。
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来源期刊
Agrosystems, Geosciences & Environment
Agrosystems, Geosciences & Environment Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
2.60
自引率
0.00%
发文量
80
审稿时长
24 weeks
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