Rising CO2 and pollen production of common ragweed (Ambrosia artemisiifolia), a known allergy-inducing species: implications for public health.

Australian Journal of Plant Physiology Pub Date : 2000-10-20 DOI:10.1071/PP00032

L. Ziska, F. Caulfield

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引用次数: 215

Abstract

Although environmental factors such as precipitation and temperature are recognized as influencing pollen production, the impact of rising atmospheric carbon dioxide concentration ([CO2]) on the potential growth and pollen production of hay-fever-inducing plants is unknown. Here we present measurements of growth and pollen production of common ragweed (Ambrosia artemisiifolia L.) from pre-industrial [CO2] (280 mol mol–1) to current concentrations (370 mol mol–1) to a projected 21st century concentration (600 mol mol–1). We found that exposure to current and elevated [CO2] increased ragweed pollen production by 131 and 320%, respectively, compared to plants grown at pre-industrial [CO2]. The observed stimulations of pollen production from the pre-industrial [CO2] were due to an increase in the number (at 370 mol mol–1) and number and size (at 600 mol mol–1) of floral spikes. Overall, floral weight as a percentage of total plant weight decreased (from 21% to 13%), while investment in pollen increased (from 3.6 to 6%) between 280 and 600 mol mol–1 CO2. Our results suggest that the continuing increase in atmospheric [CO2] could directly influence public health by stimulating the growth and pollen production of allergy-inducing species such as ragweed.

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常见豚草(Ambrosia artemisiifolia)是一种已知的致敏物种，其二氧化碳和花粉产量上升:对公众健康的影响。

虽然人们认为降水和温度等环境因素会影响花粉的产生，但大气二氧化碳浓度([CO2])上升对枯草热诱导植物的潜在生长和花粉产生的影响尚不清楚。在这里，我们测量了普通豚草(Ambrosia artemisiifolia L.)的生长和花粉产量，从工业化前的[CO2] (280 mol mol - 1)到现在的浓度(370 mol mol - 1)，再到21世纪的预计浓度(600 mol mol - 1)。我们发现，与工业化前的[CO2]环境相比，暴露于当前和升高的[CO2]环境下的豚草花粉产量分别增加了131和320%。所观察到的工业化前[CO2]对花粉生产的刺激是由于花穗数量(370 mol mol - 1)和数量和大小(600 mol mol - 1)的增加。总体而言，在280 ~ 600 mol mol - 1 CO2环境中，花重占植株总重的比例从21%下降到13%，而花粉投资从3.6%增加到6%。我们的研究结果表明，大气[CO2]的持续增加可能通过刺激豚草等致敏物种的生长和花粉产生直接影响公众健康。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Australian Journal of Plant Physiology

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