Larger shrubs can maintain high infiltration and evapotranspiration rates in experimental biofiltration systems impacted by high sediment loads

IF 6 2区环境科学与生态学 Q1 ENVIRONMENTAL STUDIES

Urban Forestry & Urban Greening Pub Date : 2024-09-17 DOI:10.1016/j.ufug.2024.128520

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引用次数: 0

Abstract

Biofiltration systems can fail over time due to clogging by fine sediments in stormwater. Infiltration can be maintained by plant roots, but species selection for biofiltration to date has largely been driven by pollutant removal efficiency and tolerance of conditions. As a result, plant species diversity in biofilters is typically low and dominated by sedges and rushes. Increased use of woody species could in theory improve plant diversity, aesthetic appeal, infiltration under high sediment loads and volumetric runoff reduction via higher evapotranspiration, without jeopardising nutrient pollutant removal. We tested whether shrubs could maintain infiltration and evapotranspiration in biofiltration profiles treated with a high sediment load, by comparing them with biofilters subjected to tap water without sediment. Following sediment application, biofilter columns planted with shrubs with high total biomass and total root length showed higher infiltration and evapotranspiration than those receiving tap water. These results indicate that shrub species are likely to alleviate clogging and increase stormwater retention in biofiltration systems. However, shrubs with a high root diameter also had low total biomass and total root length and showed 33–51 % lower infiltration rates after sediment application compared with those receiving tap water. As all shrubs had higher root diameters than typical sedges and rushes, we suggest that shrubs need a combination of higher total biomass, total root length and average root diameter to effectively maintain infiltration. While shrubs which maintained infiltration had traits associated with high nutrient removal, nutrient removal efficiency of shrubs needs to be quantified. Although root traits were related to maintenance of infiltration, above-ground stems likely created flow pathways through sediment which requires further investigation. Overall, selecting shrub species with high total biomass has the potential to maintain infiltration and increase evapotranspiration in biofiltration systems impacted by high sediment loads.

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在受高沉积物负荷影响的实验性生物过滤系统中，较大的灌木可以保持较高的渗透率和蒸散率

随着时间的推移，生物过滤系统可能会因雨水中的细小沉积物堵塞而失效。植物根系可以维持渗透，但迄今为止，生物过滤的物种选择主要取决于污染物去除效率和对条件的耐受性。因此，生物滤池中的植物物种多样性通常很低，而且以莎草和芦苇为主。理论上讲，增加木本植物的使用可以提高植物多样性、美观度、在高沉积负荷下的渗透性，并通过提高蒸散量来减少径流量，而不会影响营养污染物的去除。我们测试了灌木是否能维持生物过滤剖面在高沉积物负荷下的渗透和蒸腾作用，并将其与生物过滤器在不含沉积物的自来水中进行了比较。在施用沉积物后，与接受自来水的生物滤池相比，种植了总生物量和总根长较高的灌木的生物滤池柱显示出更高的渗透和蒸散能力。这些结果表明，灌木物种有可能减轻生物过滤系统的堵塞并增加雨水滞留。然而，与接受自来水的灌木相比，根部直径大的灌木生物量和根部总长度也较低，并且在施用沉淀物后的渗透率比接受自来水的灌木低 33-51%。由于所有灌木的根部直径都高于典型的莎草和苇类，我们认为灌木需要较高的生物量总量、根部总长度和平均根部直径才能有效保持渗透。虽然能保持渗透的灌木具有与高养分去除率相关的特征，但灌木的养分去除效率还需要量化。虽然根部特征与保持渗透有关，但地面茎可能会通过沉积物形成流动通道，这需要进一步研究。总之，在受高沉积物负荷影响的生物过滤系统中，选择总生物量高的灌木物种有可能保持渗透并增加蒸散量。

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来源期刊

Urban Forestry & Urban Greening FORESTRY-

CiteScore

11.70

自引率

12.50%

发文量

289

审稿时长

70 days

期刊介绍： Urban Forestry and Urban Greening is a refereed, international journal aimed at presenting high-quality research with urban and peri-urban woody and non-woody vegetation and its use, planning, design, establishment and management as its main topics. Urban Forestry and Urban Greening concentrates on all tree-dominated (as joint together in the urban forest) as well as other green resources in and around urban areas, such as woodlands, public and private urban parks and gardens, urban nature areas, street tree and square plantations, botanical gardens and cemeteries. The journal welcomes basic and applied research papers, as well as review papers and short communications. Contributions should focus on one or more of the following aspects: -Form and functions of urban forests and other vegetation, including aspects of urban ecology. -Policy-making, planning and design related to urban forests and other vegetation. -Selection and establishment of tree resources and other vegetation for urban environments. -Management of urban forests and other vegetation. Original contributions of a high academic standard are invited from a wide range of disciplines and fields, including forestry, biology, horticulture, arboriculture, landscape ecology, pathology, soil science, hydrology, landscape architecture, landscape planning, urban planning and design, economics, sociology, environmental psychology, public health, and education.