5 research outputs found
Proposal of a water-quality index for high andean basins: application to the Chumbao river, Andahuaylas, Peru
Thewater fromthe high Andean rivers is peculiar due to its composition and the geomorphology
of its sources, and naturally or anthropogenically contamination is not discarded along its course.
This water is used for agriculture and human consumption, therefore knowing its quality is important.
This research aimed to proposing and formulate a water-quality index for high Andean basins through
the Delphimethod, and its application in the Chumbao River located in Andahuaylas-Peru. Forty-three
water-quality parameters were evaluated through the Delphi method, and the water-quality index
(WQIHA) was formulated with a weighted average of the weights of the selected parameters, it was
compared with the WQI Dinius. For this purpose, ten sampling points were considered along the
Chumbao River located between 4274 and 2572 m of altitude and theWQIHA was applied. In addition,
field and laboratory analyses were carried out in 2018, 2019, and 2021, in dry and rainy seasons. Twenty
parameters were grouped in the physicochemical sub-index (SIPC), heavy metals sub-index (SIHM),
and organic matter sub-index (SIOM). Each group contributed with weights of 0.30, 0.30, and 0.40,
respectively, for theWQIHA formulation. The SIPC and SIOM showed that the areas near the head of
the basin presented excellent and good quality, while the urbanized areas were qualified as marginal
to poor; SIHM reported good quality in all points and seasons. Regarding the WQIHA, the index
shows good quality in the zones above 3184 m of altitude, contrasting with poor quality downstream,
decreasing notably in both seasons, suggesting continuous degradation of the water body
Insights from Water Quality of High Andean Springs for Human Consumption in Perú
The headwaters of the high Andean basin in Peru accumulate water from the mist, rain,
snow, and hail, and it is transported superficially and underground to low-lying areas, mostly used
for drinkable purposes. The natural water in these areas might be altered due to legal and illegal
mining extraction. The aim of the study was to evaluate the water quality for human consumption.
Seventeen water samples were examined from Andahuaylas (A), San Jerónimo (S), Talavera (T),
and Chiara (CH) districts located between 2813 and 4004 m altitude in the Andes. We used physic ochemical, microbiological, and metal parameters, and the results were compared to permissible
levels established by the WHO and ECA-Peru to examine samples collected in the dry and rainy
seasons in 2019. Application of principal component analysis (PCA) identified areas and conditioning
parameters. Extractive mining activity influences the quality of springs due to the presence of metals,
especially antimony (Sb), arsenic (As), cadmium (Cd), and lead (Pb), values of which are higher than
values permissible for human consumption, being higher in the dry season (p < 0.05). In addition, the
presence of cations and particulate matter affects physico-chemical parameters, for example turbidity.
PCA showed that parameters for water characterization are season-independent, and water quality in
the springs would be conditioned by the presence of metals, especially in Andahuaylas and Talavera
zones, as well as the parameters that are associated with dissolved solids in the water (turbidity and
fluorides). A frequent monitoring program of springs and groundwater is recommended, with the
purpose to protect water from contamination and guarantee safe water availability in low-lying and
urbanized areas
Phenolic Compounds, Antioxidant Capacity, and Protein Content of Three Varieties of Germinated Quinoa (Chenopodium quinoa Willd)
Quinoa (Chenopodium quinoa Willd) is a pseudocereal with a high nutritional potential and a significant content of bioactive compounds, which is consumed mainly by the inhabitants of the South American Andes. The aim of this study was to evaluate the protein content, total phenols, and antioxidant activity of quinoa grains of the Salcedo INIA, Pasankalla, and Negra collana varieties, germinated for 24 and 48 hours at 35 °C. Organic quinoa grains were grown in the Andahuaylas province in Peru, at an altitude of 3582 m. The protein content was determined through the Kjeldahl method, total phenols, in turn, by spectrophotometry with the Folin-Ciocalteu reagent, and the antioxidant activity of the DPPH type were registered. The data were analyzed through an Analysis of Variance (ANOVA), a Tukey test, and Pearson’s correlation at 5% significance. The germinated quinoa grains showed a considerable increase (p < 0,05) in their protein content, total phenolic compounds, and antioxidant activity, as well as a strong positive correlation with the size of sprouts during the germination time. Therefore, germinated quinoa could be considered as a promising product for human nutrition and health
Preparation and Chemical and Physical Characteristics of an Edible Film Based on Native Potato Starch and Nopal Mucilage
Edible films prepared from biological materials are being massively used. This study aimed to prepare edible films from native potato starch of the Allcca sipas variety (Solanum tuberosum subsp. Andigena), nopal mucilage (Opuntia ficus indica), and glycerol. Twelve edible films were prepared with starch, mucilage, and glycerin in different proportions by thermosynthesis. It was observed that mucilage and glycerol have a significant direct effect on film solubility and an inverse effect on aw, while the effect of starch is the opposite. The aw ranged from 0.562 to 0.639. The FTIR analysis showed the interaction of the components in the films being considerably influenced by the addition of mucilage. The TGA/DTA analysis reported low thermal stability in the films, retaining water around 100 °C, and showing a tendency to lose weight when the content of starch is high, while the opposite occurred with the addition of mucilage; it was also observed that around 310 °C, the maximum weight loss was observed between 53.6 and 86.1%. SEM images showed uniform films without cracks. The results are promising and show the possibility of preparing edible films from native potato starch and mucilage
Preliminary Characterization of a Spray-Dried Hydrocolloid from a High Andean Algae (Nostoc sphaericum)
The search for new natural sources of hydrocolloids with stabilizing, thickening, and good binding capacity, from raw materials that are environmentally friendly and that contribute to the circular economy is a challenge for the food industry. The aim of the study was the preliminary characterization of a spray-dried hydrocolloid from high Andean algae Nostoc sphaericum. Four ecotypes of algae from Peruvian high Andean lagoons located above 4000 m were considered. The samples were collected in the period March–April 2021 and were subjected to a spray drying process in an aqueous medium. The characterization showed that the dehydrated nostoc ecotypes presented high protein and carbohydrate content, making it a potential material for direct use as a functional food for humans. The spray-dried product presented good stability for its use as a hydrocolloid, with zeta potential values (ζ), around 30 mV, evidencing the presence of -CO-, -OH, -COO-, and -CH groups, characteristic of polysaccharides, representing 40% of total organic carbon on average, giving it low water activity values and particle size at the nanometric level. Major minerals such as Ca (>277 mg/100 g), Mg (>19.7 mg/100 g), and Fe (>7.7 mg/100 g) were reported. Spray-dried nostoc is a hydrocolloid material with high potential for the food industry, with good nutritional content and techno-functional behavior