Exploration and Molecular Identification of Proteolytic Bacteria as Probiotic Candidates from Shrimp Ponds in West Sumatra, Indonesia.

<b>Background and Objective:</b> The existence of intensive shrimp aquaculture faces serious challenges in the form of a decrease in pond water quality due to overfeeding. Efforts are needed to improve pond water quality by utilizing proteolytic bacterial isolates to break down suspended or accumulated feed on the pond bottom. The research aims to find proteolytic bacterial isolates from pond sediments and the digestive tract of shrimp (<i>Litopenaeus vannamei</i>).

Biofilm-Forming Heavy Metal Resistance Bacteria From Bungus Ocean Fisheries Port (PPS) West Sumatra as a Waters Bioremediation Agent.

<b>Background and Objective:</b> Heavy metals are one of the most worrisome pollutants due to their toxicity. Prolonged exposure to heavy metals and their accumulation and biomagnification properties adversely affect aquatic biota and human health. The ability of microorganisms to bioremediate heavy metals into non-toxic forms is one solution.

Utilization of Local Microorganisms as Bioactivators to Produce Organic Fertilizers and Analysis of Molecular Bacterial Diversity.

<b>Background and Objective:</b> Local micro organism (LMO) is the result of the fermentation of various mixtures of organic matter. One of the organic materials used, based on the local wisdom of West Sumatra, is tapai (fermented Cassava), which is used as a bio activator in the manufacture of organic fertilizer. The research aims to produce organic fertilizers that meet national quality standards in terms of the physical and chemical quality of fertilizers as well as to determine the diversity of bacteria in bio activators through next-generation sequencing analysis.

Exopolysaccharides-Producing Biofilm Bacteria from Submerged Seawater Substrate for Bioremediation of Heavy Metal Contamination.

<b>Background and Objective:</b> The coastal environment is often polluted by various toxic compounds such as heavy metals. Exposure to these toxic compounds causes coastal bacteria to adapt so that they can be used as bioremediation agents for heavy metals. This study aims for finding and screening the ability of bacteria to produce exopolysaccharide biofilms and then determine the characteristics of bacterial isolates as agents candidates for heavy metal bioremediation in the coastal environment.

Enzyme Activity of Cellulolytic Bacteria from Biological Education and Research Forest Floor Andalas University.

<b>Background and Objective:</b> The composition of the waste consists mostly of plant biomass. Cellulose is the largest component of plant biomass and cellulolytic bacteria are needed to degrade it. This study aimed to determine enzyme activity possessed by bacterial isolates from Biological Education and Research Forest floor Andalas University.

Isolation, Screening and Characterization of Ureolytic Bacteria from Cave Ornament.

<b>Background and Objective:</b> Ureolytic bacteria are bacteria capable of hydrolyzing urea. In construction, these bacteria are known to help improve soil stability. One of the habitats of ureolytic bacteria is cave ornaments such as gourdam, flowstone, stalagmite and stalactite.

Screening of Cellulolytic Bacteria from Biological Education and Research Forest Floor Andalas University, Indonesia.

<b>Background and Objective:</b> Organic waste dump is a problem that needs to be solved, one of which is by using microbe. Cellulolytic bacteria's ability to produce cellulase enzymes that can hydrolyze cellulose. Cellulose is the major component of the plant cell walls that are difficult to endure degradation naturally.