Phytolith-occluded carbon (PhytOC) is a stable carbon (C) fraction that has effects on long-term global C balance. Here, we report the phytolith and PhytOC accumulation in moso bamboo leaves developed on four types of parent materials. The results show that PhytOC content of moso bamboo varies with parent material in the order of granodiorite (2.0 g kg−1) > granite (1.6 g kg−1) > basalt (1.3 g kg−1) > shale (0.7 g kg−1). PhytOC production flux of moso bamboo on four types of parent materials varies significantly from 1.0 to 64.8 kg CO2 ha−1 yr−1, thus a net 4.7 × 106 –310.8 × 106 kg CO2 yr−1 would be sequestered by moso bamboo phytoliths in China. The phytolith C sequestration rate in moso bamboo of China will continue to increase in the following decades due to nationwide bamboo afforestation/reforestation, demonstrating the potential of bamboo in regulating terrestrial C balance. Management practices such as afforestation of bamboo in granodiorite area and granodiorite powder amendment may further enhance phytolith C sequestration through bamboo plants.
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机译:植烷吸留的碳(PhytOC)是稳定的碳(C)组分,对长期的总体C平衡有影响。在这里,我们报告了在四种母体材料上发育的毛竹叶中的植硅石和PhytOC积累。结果表明,毛竹的PhytOC含量随母材的变化而变化,依次为花岗闪长岩(2.0 g kg -1 )>花岗岩(1.6 g kg -1 )>玄武岩(1.3μgkg -1 )>页岩(0.7μgkg -1 )。四种类型母体上毛竹的PhytOC产生通量在1.0至64.8 kg CO2 ha -1 yr -1 之间变化显着,因此净4.7×10 在中国,毛竹叶藻会隔离6 –310.8×10 6 kg CO2 yr −1 。在接下来的几十年中,由于全国范围内的植树造林/植树造林,中国毛竹中的植硅碳固存率将继续增加,这证明了竹子在调节陆地C平衡方面的潜力。诸如在花岗闪长岩区造林竹子和花岗闪长岩粉改良剂等管理措施可能会进一步增强通过竹子植物固结碳酸盐的能力。
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