蚯蚓密度对不同植物配置的人工湿地温室气体排放的影响

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-10-28 DOI:10.1007/s11270-024-07594-4
Huijuan Cao, Yishi Lin, Hongxuan Lei, Xiangyong Zheng, Wenjuan Han
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引用次数: 0

摘要

植物配置和蚯蚓在人工湿地(CW)的水质净化和温室气体排放方面发挥着重要作用。然而,关于不同植物配置中蚯蚓密度对温室气体排放的影响还没有进行过研究。在这项研究中,选择了四种湿地植物物种(Canna indica、Lythrum salicaria、Oenanthe javanica 和 Typha orientalis)进行单一栽培。在每种单一栽培下,进行了三种蚯蚓密度(对照、低密度和高密度)的试验,以探讨蚯蚓密度对不同植物配置的化武中温室气体排放的影响。结果表明(1)在没有蚯蚓的系统中,单养 O. javanica 的 CO2 排放量比单养 C. indica 的 CO2 排放量低 69.9%;在所有植物配置中,CH4 排放量随着蚯蚓密度的增加而减少,蚯蚓密度高时,CH4 排放量为负。(2)在有低密度和高密度蚯蚓的系统中,C. indica 的生物量在四种单一栽培植物中最高。然而,在相同的植物配置下,蚯蚓密度对植物生物量没有显著影响。(3)在无蚯蚓系统中,O. javanica 单作的基质有机碳(SOC)分别比 T. orientalis 和 C. indica 单作低 18.94% 和 4.93%;在 L. salicaria 单作中,无蚯蚓系统的 SOC 分别比有低密度和高密度蚯蚓的系统低 35.69% 和 40.59%。(4) 在无蚯蚓系统中,全球变暖潜势(GWP)值(包括 GWPCH4+CO2+N2O+SOC、GWPnon-CO2+AGB+SOC 和 GWPCH4+CO2+N2O+AGB+SOC)在四种单一栽培中最低。此外,在 L. salicaria 单一栽培中,无蚯蚓系统的 GWPnon-CO2+SOC 分别比有低密度和高密度蚯蚓的系统低 36% 和 40.7%。这些结果表明,在不同植物配置的构建湿地中,添加高密度蚯蚓可减少甲烷排放量。不添加蚯蚓的盐湖藻单种栽培显示出较低的全球升温潜能值。
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Effects of Earthworm Density on Greenhouse Gas Emissions from Constructed Wetlands with Different Plant Configurations

Plant configuration and earthworms play an important role in water purification and greenhouse gas emissions in constructed wetlands (CWs). However, the impact of earthworm density on greenhouse gas emissions across different plant configurations has not been explored. In this study, four wetland plant species, Canna indica, Lythrum salicaria, Oenanthe javanica, and Typha orientalis, were selected for monocultures. Under each monoculture, three earthworm densities (control, low, and high densities) were conducted to explore the effects of earthworm density on greenhouse gas emissions in CWs with different plant configurations. The results showed that: (1) in systems without earthworms, the CO2 emission from O. javanica monoculture was 69.9% lower than that from C. indica monoculture; the CH4 emission decreased with the increasing earthworm density across all plant configurations, with high earthworm density resulting in negative CH4 emission. (2) In systems with low and high-density earthworms, C. indica exhibited the highest biomass among four monocultures. However, earthworm density did not significantly affect plant biomass under the same plant configuration. (3) In systems without earthworms, the substrate organic carbon (SOC) of O. javanica monoculture was 18.94% and 4.93% lower than that in T. orientalis and C. indica monocultures, respectively; For L. salicaria monoculture, the SOC was 35.69% and 40.59% lower in systems without earthworms compared to those with low and high-density earthworms, respectively. (4) In systems without earthworms, the global warming potential (GWP) value, including GWPCH4+CO2+N2O+SOC, GWPnon-CO2+AGB+SOC, and GWPCH4+CO2+N2O+AGB+SOC were lowest in L. salicaria monoculture among four monocultures. Moreover, in L. salicaria monoculture, the GWPnon-CO2+SOC of systems without earthworms was 36% and 40.7% lower than in systems with low and high-density earthworms by, respectively. These results indicate that adding high-density earthworms can reduce CH4 emissions in constructed wetlands with different plant configurations. L. salicaria monoculture without adding earthworms demonstrated a low global warming potential.

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