Monoecious Hydrilla verticillata development in complete darkness

•Monoecious hydrilla shoot lengths increased 32 cm during ten dark development weeks.•Dry weight decreased by 10 mg after ten weeks of dark exposure.•Starch was the most prominent non-structural carbohydrate.•Starch levels were highest in plants prior to germination (31% of dry weight). Hydrilla ver...

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Bibliographic Details
Published in:Aquatic botany 2019-03, Vol.154, p.28-34
Main Authors: Haug, Erika J., Harris, Jon T., Richardson, Robert J.
Format: Article
Language:English
Subjects:
Adaptation
Aquatic weeds
Benthic barrier
Blackout
Carbohydrates
Chambers
Darkness
Development potential
Dry weight
Elongation
Exposure
Freshwater plants
Germination
Growth chambers
Hydrilla verticillata
Morphology
Non-structural carbohydrates
Skotomorphogenesis
Starch
Turbidity
Weeds
Weight
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Summary:•Monoecious hydrilla shoot lengths increased 32 cm during ten dark development weeks.•Dry weight decreased by 10 mg after ten weeks of dark exposure.•Starch was the most prominent non-structural carbohydrate.•Starch levels were highest in plants prior to germination (31% of dry weight). Hydrilla verticillata is one of the most problematic invasive submersed aquatic weeds in the United States. A study was conducted in growth chambers to look at aspects of development of monoecious Hydrilla verticillata in complete darkness. A single tuber was placed in each of forty-eight growth chambers. Following differential blackout intervals of zero, two, four, six, eight, or ten weeks, plants in each treatment group were dissected into above ground (shoot) and below ground (tuber) material. Plant section length, dry weight, and non-structural carbohydrate content were determined. Shoot lengths increased by 32.1 cm following ten weeks of dark exposure, as compared to the zero-darkness exposure controls. Despite the increase in total shoot length, total dry weight decreased from 34.6 mg (zero-darkness) to 25.4 mg after ten weeks of dark exposure. During this time, tuber dry weight declined from 34.6 mg (zero-darkness) to 5.8 mg and shoot dry weight increased from 0 mg (zero-darkness) to 20 mg. Starch was the most prominent non-structural carbohydrate present in plants throughout the experiment. Starch levels were highest in plants prior to germination (31% of dry weight) and declined significantly and steadily over the course of the 10-week dark development experiment to an average of 20% of dry weight. The results of this study indicate that monoecious hydrilla has a high elongation and development potential over long periods of time in darkness. This adaptation is advantageous in overcoming light blocking management techniques and in allowing the species to occupy a larger area of the profundal zone.
ISSN:0304-3770
1879-1522
DOI:10.1016/j.aquabot.2018.12.005