Spruce and pine utilization of phosphorus in soil amended with 33P-labelled hydroxylapatite

IF 4 2区 农林科学 Q2 SOIL SCIENCE
Louise Rütting, Diana Hofmann, Thomas Pütz, Matthias Konrad-Schmolke, Roland Bol
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Abstract

Mined rock phosphate is expected to become a scarce resource within the next few decades as global phosphorus (P) deposits are declining. As a result, mineral P fertilizer will be less available and more expensive. Therefore, improved knowledge is needed on other P resources, for example, apatite fertilizers derived from the by-products of iron mining. Forestry is a potential future consumer of apatite-rich products with the aim of obtaining more wood per hectare. The actual P availability in apatite to plants has so far been barely quantified. We therefore examined tree P uptake using 33P apatite under chamber-grown and outdoor conditions. We examined the P uptake for the two main conifer species spruce (Picea abies) and pine (Pinus sylvestris) used in Fenno-Scandinavian forestry. We synthesized 33P-enriched apatite and applied it to mesocosms with growing seedlings of spruce and pine. The P uptake from 33P-labelled hydroxylapatite was subsequently traced by (bio)imaging of radioactivity in the plants and by liquid scintillation counting (LSC) upon destructive harvest in all plant fractions (leaves, stem and roots) and rhizosphere soil. Two climatic conditions were compared, one at natural outdoor conditions and one set as 5°C warmer than the climate record from the previous years. Plant P uptake from 33P-labelled hydroxylapatite was enhanced in chamber-grown compared with outdoor seedlings for both tree species. This uptake was manifested in the clear radioactive images obtained over ca. 1 month after soil apatite application. Furthermore, all aboveground plant fractions of both spruce and pine seedlings showed a higher P uptake in warmer than colder daytime environments. The observed quantities and rates of P uptake from 33P-labelled hydroxylapatite by spruce (18 Bq g−1 hour−1) and pine (83 Bq g−1 hour−1; averages in chamber condition) are as to our knowledge unique observations. Natural forest soils in Sweden are often P-poor. Our research suggests that apatite-based P fertilization of spruce and pine forests can increase wood production by overcoming any existing P limitation.

Abstract Image

云杉和松树利用用 33P 标记的羟基磷灰石改良的土壤中的磷
随着全球磷(P)矿藏的减少,预计在未来几十年内,开采的磷矿石将成为稀缺资源。因此,矿物磷肥将越来越少,价格也将越来越高。因此,需要进一步了解其他磷资源,例如从铁矿副产品中提取的磷灰石肥料。林业是未来富磷灰石产品的潜在消费者,目的是每公顷获得更多木材。迄今为止,植物对磷灰石中钾的实际利用率几乎没有量化。因此,我们使用 33P 磷灰石在室内和室外条件下研究了树木对磷的吸收。我们研究了芬诺-斯堪的纳维亚林业中使用的两种主要针叶树种云杉(Picea abies)和松树(Pinus sylvestris)的钾吸收情况。我们合成了富含 33P 的磷灰石,并将其应用于云杉和松树幼苗生长的中置池中。随后,通过对植物体内的放射性进行(生物)成像,并在破坏性采收后对所有植物部分(叶、茎和根)和根瘤土壤进行液体闪烁计数(LSC),追踪 33P 标记羟基磷灰石对 P 的吸收情况。比较了两种气候条件,一种是室外自然条件,另一种是比前几年的气候记录温度高 5°C。与室外幼苗相比,两种树种在室内生长的幼苗从 33P 标记的羟基磷灰石中吸收的植物钾都有所增加。这种吸收表现在土壤施用磷灰石后约 1 个月内获得的清晰放射性图像上。在土壤中施用磷灰石约 1 个月后获得的清晰放射性图像中可以看出这种吸收。此外,云杉和松树幼苗的所有地上部分在温暖的白天环境中都比在寒冷的白天环境中吸收更多的磷。据我们所知,云杉(18 Bq g-1 小时-1)和松树(83 Bq g-1 小时-1;试验室条件下的平均值)从 33P 标记的羟基磷灰石中吸收钾的数量和速率都是独一无二的。瑞典的天然林土壤通常缺乏钾。我们的研究表明,对云杉和松树林进行磷灰石施肥可以克服任何现有的钾限制,从而提高木材产量。
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来源期刊
European Journal of Soil Science
European Journal of Soil Science 农林科学-土壤科学
CiteScore
8.20
自引率
4.80%
发文量
117
审稿时长
5 months
期刊介绍: The EJSS is an international journal that publishes outstanding papers in soil science that advance the theoretical and mechanistic understanding of physical, chemical and biological processes and their interactions in soils acting from molecular to continental scales in natural and managed environments.
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