Abstract:The treatment of contaminated water is a pressing issue. As a solution it is proposed to use a biological engineering construction with the aquatic vegetation - a bioplato. The process of water purification takes place at the expense of the natural capacity of a number of living organisms and plants to transform and absorb contaminants [1]. The phytoremediation method helps to extract heavy metals from water and makes it suitable for consumption and use. However, in order to be most effective, it is necessary … Show more
“…The study conducted by Rezania et al, (2016) and Nizam et al, (2020) provided evidence that a range of aquatic plant species, such as Kiambang, possess a notable ability to effectively decrease the concentration of dissolved nutrients within aquatic environments. This observation is consistent with the research conducted by (Hernayanti & Lestari, 2020), and (Avdeenkova et al, 2020) which documented the effective absorption of heavy metals by aquatic ferns, such as Kiambang.…”
Objectives: Kiambang (Salvinia molesta), a natural aquatic plant, is tested for its ability to improve water quality in three post-coal mine ponds in South Kalimantan, Indonesia: Pond A (Satui), Pond B (Jorong), and Pond C (Angsana). Kiambang's ability to remediate dissolved nutrients and contaminants is the main goal. Theoretical Framework: Using kiambang's ability to absorb dissolved elements and contaminants, the study follows phytoremediation principles. Previous research has shown its promise in many settings, but applying it to South Kalimantan post-coal mine ponds is challenging. Method: A completely randomized controlled experiment with five treatments and a control group was conducted. Water quality measures like dissolved nutrients, heavy metals, and pollutants were measured before and after seven days. We used advanced testing equipment to verify accuracy. Results and conclusion: Kiambang-treated ponds have consistently better water quality. The plant greatly reduced dissolved nutrients, heavy metals, and contaminants. ANOVA analysis verified the significance of these differences (p < 0.05). Kiambang shows potential in phytoremediation, a sustainable and eco-friendly solution to post-coal mining pond water quality issues. Nature-based initiatives are crucial in coal-mining regions, according to the study. Implications of the research: Environmental conservation, sustainable resource use, and ecological applications are affected by this research. Kiambang's water quality management potential benefits post-coal mining ponds, aquatic ecosystems, wetlands, and aquaculture systems. This work enables future research and collaboration to use kiambang in varied environments.
“…The study conducted by Rezania et al, (2016) and Nizam et al, (2020) provided evidence that a range of aquatic plant species, such as Kiambang, possess a notable ability to effectively decrease the concentration of dissolved nutrients within aquatic environments. This observation is consistent with the research conducted by (Hernayanti & Lestari, 2020), and (Avdeenkova et al, 2020) which documented the effective absorption of heavy metals by aquatic ferns, such as Kiambang.…”
Objectives: Kiambang (Salvinia molesta), a natural aquatic plant, is tested for its ability to improve water quality in three post-coal mine ponds in South Kalimantan, Indonesia: Pond A (Satui), Pond B (Jorong), and Pond C (Angsana). Kiambang's ability to remediate dissolved nutrients and contaminants is the main goal. Theoretical Framework: Using kiambang's ability to absorb dissolved elements and contaminants, the study follows phytoremediation principles. Previous research has shown its promise in many settings, but applying it to South Kalimantan post-coal mine ponds is challenging. Method: A completely randomized controlled experiment with five treatments and a control group was conducted. Water quality measures like dissolved nutrients, heavy metals, and pollutants were measured before and after seven days. We used advanced testing equipment to verify accuracy. Results and conclusion: Kiambang-treated ponds have consistently better water quality. The plant greatly reduced dissolved nutrients, heavy metals, and contaminants. ANOVA analysis verified the significance of these differences (p < 0.05). Kiambang shows potential in phytoremediation, a sustainable and eco-friendly solution to post-coal mining pond water quality issues. Nature-based initiatives are crucial in coal-mining regions, according to the study. Implications of the research: Environmental conservation, sustainable resource use, and ecological applications are affected by this research. Kiambang's water quality management potential benefits post-coal mining ponds, aquatic ecosystems, wetlands, and aquaculture systems. This work enables future research and collaboration to use kiambang in varied environments.
“…A bio plateau with a container planting method in the presence of microorganisms purifies water better, and after ultra-violet radiation, the efficiency of purification from radio cesium ions by sugar corn plants increases. For the climate zone of the middle zone Russia was offered a combined floating bio plateau [5][6][7][8][9].…”
The article presents the features of cascade phyto-treatment facilities, bio plateau with an open water mirror. Such structures are similar to natural wetland objects. The plant species on the cascades and their effect in the post-treatment of wastewater are considered. Natural biological treatment of wastewater with algae roots is one of the most effective methods of treatment. This method allows you to clean polluted wastewater without harming the environment. Aquatic plants intensify the purification process, remove biogenic elements, actively using them in their nutrition, remove heavy metals and organic substances from the water and accumulate in the root system, which are difficult to decompose and thus improve the process of self-purification of reservoirs. The article pays great attention to the project «The Resilient Ribbon: A Timeless Legend of Kazan». The essence of the project is the natural self-purification of the city lake Nizhny Kaban in Kazan, where the root system of plants is used to purify water from mixtures, phenols and phosphates, heavy metals and a number of other harmful substances. The results of laboratory studies of water quality after treatment at cascade phyto-treatment facilities are presented.
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