Determining the moisture content of Acacia seeds

IF 0.9 4区 生物学 Q4 PLANT SCIENCES Australian Journal of Botany Pub Date : 2024-06-24 DOI:10.1071/bt24021
Geoffrey E. Burrows
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Abstract

In a recent paper in Southern Forests, Jaganathan and co-workers indicated that the low constant-temperature drying method (LCTDM) (103°C for 17 h) is satisfactory for determining moisture content (MC) in seeds with physical dormancy (PY). Would this recommendation apply to Acacia, a large genus (1000+ species) with a seed coat so strong that seeds in the soil can maintain high viability for many decades? MC was assessed, using the LCTDM, in six Australian Acacia species by comparing intact seeds with those cut in half. Halved seeds of all species lost moisture rapidly and their mass had largely stabilised after about 2–3 h. Intact seeds had a wide variation in moisture-loss patterns. In some species, the testa was morphologically unchanged after 24 h at 103°C and this was associated with a relatively slow moisture loss. In other species, the testa had completely shattered after 8 h, leading to a rapid moisture loss. If the LCTDM is used to determine MC in Acacia species, it is advisable to employ a technique that substantially disrupts the testa.

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确定金合欢种子的水分含量
在最近发表于《南方森林》(Southern Forests)的一篇论文中,Jaganathan 及其合作者指出,低恒温干燥法(LCTDM)(103°C 17 小时)对于测定物理休眠(PY)种子的含水量(MC)是令人满意的。金合欢属的种子种皮非常坚固,在土壤中可以保持几十年的高存活率,那么这一建议是否适用于金合欢呢?通过比较完整种子和切成两半的种子,使用 LCTDM 评估了六个澳大利亚金合欢物种的 MC。所有物种的切半种子都迅速失去水分,大约 2-3 小时后其质量基本稳定。在某些物种中,种皮在 103°C 温度下 24 小时后形态不变,这与水分流失相对较慢有关。在其他物种中,种皮在 8 小时后完全破碎,导致水分快速流失。如果使用 LCTDM 测定金合欢树种的 MC,最好采用能使种皮严重破坏的技术。
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来源期刊
Australian Journal of Botany
Australian Journal of Botany 生物-植物科学
CiteScore
2.30
自引率
18.20%
发文量
26
审稿时长
6-12 weeks
期刊介绍: Australian Journal of Botany is an international journal for publication of original research in plant science. We seek papers of broad interest with relevance to Southern Hemisphere ecosystems. Our scope encompasses all approaches to understanding plant biology. Australian Journal of Botany is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.
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