Cultivation of Lemma gibba under desert conditions. II: The effect of raised winter temperature, CO2 enrichment and shading on productivity

Micha Guy, Gila Granoth, Joseph Gale
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引用次数: 3

Abstract

The aim of this work was to increase the productivity of Lemna gibba ponds under desert conditions. In the winter season, the ponds were covered with transparent plastic tents which raised water temperature. This also allowed CO2 to be added to the air in the tents to either the ambient, ∼ 340 μmol−1, or to higher concentrations. The plastic covers attenuated photosynthetically active light by ∼ 30%. Winter-season yields in the covered ponds, maintained at ambient CO2 concentration, were 39% higher than in the uncovered ponds. This could be ascribed to raised temperatures. Enrichment of the atmosphere with CO2 further increased yields by as much as 28%. The different treatments did not affect protein content expressed as a percentage of dry weight. Laboratory experiments indicated that the shorter the photoperiod the larger is the growth response of Lemna gibba to CO2 enrichment.

Shading of the ponds during the June–August summer season reduced pond temperatures at midday by about 5–6°C and resulted in a 30–80% increase of growth.

It was concluded that under desert conditions similar to those prevailing in this trial, high yields of Lemna gibba can be achieved throughout a growing season of 12 months per year by covering the ponds and raising ambient [CO2] during the winter, and by shading in summer. Productivity of 7·4±1·0 g m−2 day−1 can be maintained throughout the year. Whether or not it is worthwhile to do so is a question of local economics.

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沙漠条件下长臂猿的栽培。二、冬季温度升高、CO2富集和遮荫对生产力的影响
本研究的目的是提高沙漠条件下Lemna长臂猿池塘的生产力。在冬季,池塘上覆盖着透明的塑料帐篷,提高了水温。这也允许将二氧化碳添加到帐篷内的空气中,达到环境浓度,约340 μmol−1,或更高的浓度。塑料覆盖的光合有效光衰减了约30%。在CO2浓度保持不变的情况下,有盖水塘的冬季产量比无盖水塘高39%。这可以归因于气温升高。大气中二氧化碳的富集使产量进一步提高了28%。不同处理不影响蛋白质含量占干重的百分比。室内实验表明,光周期越短,长臂猿对CO2富集的生长响应越大。夏季6 - 8月遮荫使池塘中午温度降低约5-6°C,导致生长增加30-80%。结论是,在与本试验相似的沙漠条件下,通过冬季覆盖池塘和提高环境[CO2],夏季遮荫,每年12个月的生长季节都可以获得高产量。全年可保持7·4±1·0 g m−2 day−1的产量。这样做是否值得是当地经济的问题。
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