4. Factors influencing MEEs treatme

4. Factors influencing MEEs treatment performance
Since MEEs plays a key role in pollution control, understanding the influencing factors is therefore regarded as fundamental to improve treatment efficacy. In recently, the influencing factors of MEEs have been discussed in the literatures along with various MEEs applications. Particularly, the factors such as worm species and load, filter media type, chemical factors, hydraulic loading rate (HLR) and seasonal temperature may be crucial to establish a viable MEEs and achieve more favorable treatment performance.

4.1. Earthworm species and load

Various earthworm species have various burrowing characteristics. Thus, various earthworm species have different effects on the treatment process. Firstly, the anecic earthworm species prefer making permanent vertical burrows into the deep layers and the treatment efficiency would be reduced because of the decreased contact time between influent and filter matrix (Krishnasamy et al., 2013). The second category are endogeic worms which make extensive non-permanent horizontal burrows. This species may enhance wastewater treatment performance via distributing the influent over a larger area (Hawkins et al., 2008). And thirdly, epigeic worm species, such as Eisenia fetida and Eisenia andrei, are a key for decomposition of biomass due to their preference for organic rich substrates compared to the other species ( Gajalakshmi et al., 2001). Therefore, epigeic species are most commonly applied to MEEs, which can be seen from Table 2.

The treatment performance of MEEs is influenced by the health, maturity and population density of earthworm. Earthworm load is one of the important factors for efficient running of MEEs (Li et al., 2009). The number of worms per unit area in the vermifilter bed may positively affect the treatment efficiency of MEEs. Sinha et al. (2008) suggested that a relatively high number of earthworms (at least 15,000–20,000 earthworms/m3) in MEEs should be inoculated. Wang et al., 2013a and Wang et al., 2013b concluded that the removal rate of NH3-N at 12.5 g of earthworm per liter of soil was higher compared with that at 0 and 4.5. However, some other researches argued that perhaps the worm load in MEEs might not be highly important in treating low strength wastewater as the earthworm density could be adjusted by itself according to the influent (Reinecke and Viljoen, 1990). This view was also demonstrated by Li et al. (2009) who reported that the density of earthworm could be increased simultaneously from 3,000 to 12,000 earthworms/m3.