高振幅交变温度和硝酸钾渗透对刺青藻种子水下萌发的影响。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Juliana Echeverry Holguín, María Crepy, Gustavo G Striker, Federico P O Mollard
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引用次数: 0

摘要

水下发芽可能会危及幼苗的生存,这表明种子需要通过感知环境信号来进行控制。这些线索包括与排水土壤或浅水层有关的日交替温度。我们研究了高振幅交替温度对水下发芽的影响。此外,种子在土壤中的实验条件(如水合/脱水阶段)会改变其发芽能力,因此我们测试了浸渍是否会影响水下发芽。我们研究了来自广泛农田的棘球藻种子,将种子暴露在连续的淹没和排水处理中,并结合促进发芽的线索。在排水条件下,最高温度和最低温度相差10°C可促进大肠杆菌的萌发,而在低氧水(pO2)条件下,较高的温差(bbb15°C)可促进大肠杆菌的水下萌发
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Boosting underwater germination in Echinochloa colona seeds: the impact of high amplitude alternating temperatures and potassium nitrate osmopriming.

Underwater germination could risk seedling survival, suggesting the need for control through seed perception of environmental cues. These cues include diurnally alternating temperatures tied to drained soils or shallow water tables. We examined high-amplitude alternating temperatures impact on underwater germination. Besides, the conditions experimented by seeds in the soil (e.g. hydration/dehydration phases) change their germinability so we tested if osmopriming could affect underwater germination. We worked with Echinochloa colona seedlots from extensive crop fields, exposing seeds to sequential submergence and drained treatments in combination with cues that promote germination. While a 10°C difference between maximum and minimum daily temperatures maximised germination in drained conditions, higher amplitudes (>15°C) alternating temperatures promoted E. colona underwater germination under hypoxic water (pO2 <4.1kPa). KNO3 osmopriming in drained conditions promoted later underwater germination even under hypoxic water; however, PEG 6000 osmopriming induced seeds to enter secondary dormancy inhibiting underwater germination. KNO3 improved E. colona underwater germination under air-equilibrated floodwater (pO2 : 16.5-17.4kPa) yet not under hypoxic conditions. This suggests that germination can proceed in flooded nitrate-fertile soils as long as it remains aerobic. Hypoxic submergence did not inhibit the induction of hypersensitivity to light in E. colona seeds. This research expands our understanding of wetland seed germination ecophysiology, shedding light on the inducible nature of underwater germination in hydrophyte weeds.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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