Journal of Civil and Environmental Engineering

The search for technologies that make it possible to obtain high-quality water that can be reused is becoming increasingly important in light of the significant role that wastewater reuse plays in the water cycle and the current water situation, which is marked by severe drought in this sense, the film organic reactor. The utilization of effluents from wastewater treatment plants (WWTP) is a suitable choice to moderate water pressure in districts where absence of water is an issue in the short to long haul. This is the situation in the eastern region of Spain, where there is a disparity between the high demands for fresh water, which is mostly used for agricultural purposes and the limited water resources that are available. Despite the fact that in this region there is an outright consciousness of the double-dealing and utilization of recycled water, with reuse figures of more than 95% lately, there is an extraordinary absence of information about the drawn out ecological results of this training.

Watercore is a pineapple physiological disorder that manifests as water-soaked tissue and fluid deposition in intercellular spaces. The pineapple industry in China is being hampered by this disorder, which has a negative impact on the quality of the fruit and shortens its shelf life. As a result, growers are losing a lot of money and the pineapple industry is being held back. Water core's molecular mechanism, on the other hand, is still a mystery. De novo RNA-sequence technology was used for the first time to conduct transcriptome analyses of water cored and normal pineapple fruits for the purpose of elucidating the molecular mechanism of pineapple water core. In the transcriptomes of normal and mildly water cored fruits, respectively, high-quality reads of 46.66 M were found. After filtering the initial data, clean reads of 45.50 and 42.79 M were obtained. In subsequent pineapple water core research, these genes will be useful resources.