一些木本豆科植物的种子发芽动态：对恢复干旱地区生态系统的影响。

Biotechnologia Pub Date : 2023-12-21 eCollection Date: 2023-01-01 DOI:10.5114/bta.2023.132774

Toma Buba, Abalis Gaya Ezra, Sunday Paul Bako, Mohammad Umar Sabo

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引用次数: 0

摘要

研究了 28 天内金合欢、洋紫荆、白花蛇舌草和桔梗的种子萌发动态。种子经浓硫酸预处理。测定的发芽参数包括发芽能、发芽期、发芽能力、发芽惰性和活力损失。种子接触硫酸的时间越长（30、40、50 和 60 分钟），发芽率越高（α = 0.05）。对于 A. nilotica 种子，50 分钟酸处理的萌发能量最高，为 85.5%，萌发能力最高，为 89.5%（P = 0.001）；相反，60 分钟处理的 P. reticulatum 种子萌发能量和萌发能力最高，均为 96.5%（P = 0.079）。对于 B. rufescens，30 分钟处理的发芽能最高，为 93%，发芽率最高，为 88% (P = 0.001)。对于 F. albida，所有酸处理的发芽能和发芽率均为 100%（P = 0.621）。A. nilotica 和 P. reticulatum 的活力损失（分别为 32% 和 30%）高于 B. rufescens 和 F. albida（分别为 19.5% 和 6%）（P = 0.000）。一般来说，发芽能越高，活力损失越低，这取决于物种。对萌发惰性和生存力损失的分析表明，与 B. rufescens 和 F. albida 相比，A. nilotica 和 P. reticulatum 的种子在干旱气候条件下的生存能力更强。然而，由于 B. rufescens 和 F. albida 具有存活率损失较低的优势，因此在种子供应是一个主要问题的干旱地区生态系统的自然恢复中，应首选 B. rufescens 和 F. albida。

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Seed germination dynamics of some woody legumes: implication for restoration of arid zones ecosystems.

The seed germination dynamics of Acacia nilotica, Bauhinia rufescens, Faidherbia albida, and Piliostigma reticulatum were investigated over 28 days. Seeds were pretreated with concentrated sulfuric acid. Determined germination parameters included germination energy, germination period, germination capacity, germination inertia, and viability loss. Seeds exposed to sulfuric acid for extended periods (30, 40, 50, and 60 min) exhibited a higher germination rate (α = 0.05). For A. nilotica seeds, the 50 min acid treatment resulted in the highest germination energy of 85.5% and germination capacity of 89.5% (P = 0.001); conversely, the 60-min treatment yielded the highest germination energy and capacity, both 96.5% (P = 0.079), for P. reticulatum. In the case of B. rufescens, the 30-min treatment led to the highest germination energy of 93% and germination capacity of 88% (P = 0.001). For F. albida, all acid treatments resulted in 100% for both germination energy and germination capacity (P = 0.621). Viability losses for A. nilotica and P. reticulatum were higher (32 and 30%, respectively) than those for B. rufescens and F. albida, which were 19.5 and 6%, respectively (P = 0.000). Generally, higher germination energy resulted in lower viability loss, dependent on the species. Analyses of germination inertia and viability loss suggest that seeds of A. nilotica and P. reticulatum possess a greater ability to survive in arid land climates than those of B. rufescens and F. albida. However, due to the advantage of lower viability loss, B. rufescens and F. albida should be preferred for the natural restoration of arid land ecosystems where seed availability is a major concern.

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Biotechnologia

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