Sustainable Solutions for Environmental Pollution, Volume 2. Группа авторов
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СКАЧАТЬ ducks, and coots feed on aquatic vegetation: they can cause some damage, such as on floating mats.

      The different factors can be actuated by proper management of CWs and can therefore be used to increase biodiversity. Among the environmental factors influencing CW biodiversity, connectivity is considered a key factor in the colonization by aquatic fauna. Indeed, the connectivity of CWs with other nearby lentic water bodies and their distribution in the landscape are at the heart of conservation strategies. Connecting CWs to the various water bodies isolated in the landscape by ecological corridors facilitates connectivity. In addition, for macroinvertebrates with low mobility such as gastropods, the introduction of sediment and vegetation samples from surrounding natural wetlands facilitates the colonization of new CWs by local flora and fauna species. In all cases, the introduction of invasive species should be avoided (Becerra-Jurado et al., 2012). Increasing the heterogeneity or complexity of habitats and their age increases the biodiversity of CWs. In order to maintain the biodiversity, it is essential to maintain irregular depth profiles by adjusting water depth and controlling the macrophyte sprawling (Manzo et al., 2020).

      Although considered as low-maintenance systems, NBSs require minimal maintenance, such as monitoring the banks, and the quality of both the final effluent and the receiving water. Part of this monitoring can be easily carried out by local residents. In addition, the importance of the biodiversity of CWs for agricultural areas should be explained to farmers and local communities through educational programs (Becerra-Jurado et al., 2012).

      1.12.1 Greenhouse Gases (GHG)

      1.12.2 Noxious Gases

      Wastewater rich in OM and mineral compounds such as sulfates and phosphates can be anaerobically reduced to form noxious gases such as hydrogen sulfide (H2S) or phosphine (PH3). The property of sulfide ion to form insoluble precipitates with heavy metal ions makes it an excellent immobilizing agent for toxic metals in the bottom sediments. However, high sulfide concentrations can have a negative effect on wetland plant growth and microbial activity, particularly nitrification (Wu et al., 2013). H2S is a toxic and foul-smelling gas highly toxic to mammals (including humans) and aquatic species. The creation of dynamic oxidation-reduction gradients (aerobic-anaerobic) in the rhizosphere of CWs can simultaneously produce nitrification/denitrification and anaerobic ammonium oxidation (Anammox) and sulfur oxidation/reduction conditions that allow sulfide removal (Gonzalias et al., 2007; Jones et al., 2017). Bacteria such as Desulfovibrio and Desulfobacter and Archaea, such as Archaeoglobus are able to reduce sulfate in anaerobic conditions: these conditions can be obtained for example when a surface-flow wetland is completely covered by free-floating plants (such as duckweed). The flora of aquatic systems (including wetlands) is diversely sensitive to sulfide. Threshold values between 10 µmol/L (for Carex sp.) and 1500 µmol/L (for P. australis) have been reported (Lamers et al., 2013).

      1.12.3 Mosquitoes

      The main nuisance associated with CWs is the prospect of an increase of the mosquitoes’ population and the potential transmission of diseases (e.g., West Nile, dengue and chikungunya viruses, or Plasmodium malaria). Mosquitoes are Diptera insects of the family “Culicidae” represented by more than 3,500 species worldwide. They develop in two phases: a strictly aquatic thermo-dependent larval phase and an aerial adult phase. Larval development can last between five days and three months depending on the water temperature (thermo-dependence) and the availability of food resources (they consume small planktonic organisms). Following their emergence out of the water, adult females search for the proteins necessary for the maturation of their eggs thanks to blood meals on various hosts such as mammals, birds and reptiles (Valdelfener et al., 2019).

      A drastic strategy, for subsurface flow structures, is to ensure that no area will remain in water for a period of more than four days. Running and covered water minimizes mosquito development. Water levels can be managed at certain times of the year to create habitat that is hostile to mosquito development. In the case of permanent water bodies, such as FSF-CWs, the most effective strategy consists to achieve a well-balance ecosystem, allowing the permanent presence of communities of predators and competitors of larval mosquitoes (fish, crustacean zooplankton, and aquatic insects) and imagoes (insects, amphibians, bats, and birds such as swallows) (Medlock and Vaux, 2015). More permanent CWs have more predators, and therefore, mosquitoes’ density is reduced (Holmes and Cáceres, 2020). However, caution should be exercised on the introduction of non-native fish species. Indeed, an overpopulation of predators can considerably reduce macro-invertebrate diversity and unbalance the water bodies (Becerra-Jurado et al., 2012).

      1.12.4 Burrowing Animals

      1.12.5 Algal Blooms

      In open water systems such as FSF-CWs, nutrients (N and P) favour the over-development of algae and cyanobacteria in spring and summer. When starving on nutrients, cyanobacteria can die explosively, releasing various СКАЧАТЬ