ABSTRACT
The sunflower (Helianthus annus L.) is a vital oilseed crop exposed to drought globally. A vast proportion of research is devoted to the naturally occurring microbes and their interaction with plants to alleviate stress consequences. Halophilic bacterial strains, i.e., Bacillus cereus KUB-15 (accession number NR 074540.1), KUB-27 (accession number NR 074540.1), and Bacillus licheniformis strain AAB9 (accession number MW362506), were isolated. Later, isolated strains were used for sunflower through inoculation. Plants were allowed to grow, and thirty-days-old plants were exposed to fixed moisture stress (40-45%). The functionality of photosystem II, light-harvesting ability, and physiological tolerance of cultivars were examined. Bacterial strains B. licheniformis sustained substantial electron flow in between photosystem II (PS II) and photosystem I (PS 1) that not only favored the passable photosynthetic performance but also enhanced antioxidant enzyme activity under stress condition. Compared to other halophilic strains, Bacillus licheniformis did manage reasonable relative water content (RWC), chlorophyll content index (CCI) and biomass production under stress condition. In comparison to both sunflower cultivars, bacterial inoculation was greatly restored growth and photosynthetic performance in Agsun-5264 than S-278 under moisture stress environment. Hence, it is suggested that that bacterial strain and plants cultivar compatibility are essential aspect for sustainable agriculture production.
Subject(s)
Photosystem II Protein Complex , Soil , Photosystem II Protein Complex/metabolism , Soil Microbiology , Plant Leaves/metabolism , Photosynthesis , ChlorophyllABSTRACT
Purpose of review: Menstruation touches all spheres of human society, including psychology, education, business, policy, race, and religion. This narrative review aims to describe the relationship menstruation holds with these spaces. Recent findings: First, menstruation plays many roles in psychology - premenstrual syndrome affects psychological wellbeing and in turn, psychological stress impacts menstruation. Functional hypothalamic amenorrhea can result when stress hormones inhibit the Hypothalamus-Pituitary-Ovarian axis. Furthermore, menstruation has many implications for all aged individuals, especially adolescents and those who are menopausal. These implications underscore the importance of proper education surrounding menstruation, which can be achieved via social media, school systems, family, and clinicians. However, menstrual health education is highly variable depending on the state and family that someone is raised in. Additionally, menstruation can pose a financial burden as menstrual products can be expensive and access to these products is limited for those who are homeless, incarcerated, and low-income. Recent public policy measures in various states have aimed to achieve "menstrual equity," by requiring public schools to supply free menstrual products in bathrooms. Furthermore, racial disparities exist with menstrual disorders. Uterine fibroids occur more frequently in Black menstruators compared to White menstruators, and Black women experience worse outcomes overall with fibroids and endometriosis management. Finally, analysis of religion and its relationship to menstruation underscores the immense stigma and "impurity" associated with menstruation. Summary: Overall, this review highlights the universality of menstruation in society. As a "fifth vital sign", there is significant room for improvement in terms of education, research, and cultural acceptance of menstruation. Future research should explore interventions to reduce these gaps.
ABSTRACT
Purpose of review: a)The modifiable and non-modifiable determinants and the currently available methods of assessment of menstrual blood flow will be discussed, with the goal of helping healthcare providers, researchers, and those interested in public health. Recent findings: b)Several factors can impact menstruation. The determinants include modifiable factors such as smoking, nutrition, exercise, stress, weight fluctuation, and benign gynecologic diseases, and non-modifiable factors such as age, race, and the individual's genes. The intertwined dynamic among these determinants needs more critical attention. Currently, the methods for the assessment of menstruation all have advantages and disadvantages, often with a tradeoff between practicality and accuracy. Summary: c)Considered by many as the fifth vital, menstruation provides a window to an individual's general health. The discussion of its determinants and assessment can be more appropriate for individual contexts, especially from a public health perspective as it can improve the reproductive health of the population.
ABSTRACT
Environmental extremes such as hypersaline conditions are significant threats to agricultural productivity. The sustainable use of halophilic microbial strains was evaluated in plant in a salt stress environment. Oxygen-evolving complex (OEC), energy compartmentalization, harvesting efficiencies (LHE), specific energy fluxes (SEF), and nitrogen assimilation of oilseed crops (Sunflower cultivars) in a suboptimal environment was examined. Plants were grown in a plastic pot (15 ×18 cm2) containing sterilized (autoclaved at 120°C for 1 h) soil. Twenty-five ml suspension (107 CFU/ml) each of Bacillus cereus strain KUB-15 and KUB-27 (accession number NR 074540.1) and Bacillus licheniformis strain AAB9 (accession number MW362506), were applied via drenching method. Month-old plants were subjected to salt stress via gradual increment method. The energy compartmentalization of microbial inoculated plants exposed to salt stress revealed higher photosystem II (PSII) activity at the donor side, lesser photo-inhibition, and increased performance of oxygen-evolving complex compared to control. High potassium (K+) and low sodium (Na+) ions in treated leaves with the activated barricade of the antioxidant system stimulated by Bacillus strains favored enhanced photochemical efficiency, smooth electron transport, and lesser energy dissipation in the stressed plants. Moreover, the results reveal the increased activity of nitrite reductase (NiR) and nitrate reductase (NR) by microbial inoculation that elevated the nitrogen availability in the salt-stressed plant. The current research concludes that the application of bio-inoculants that reside in the hyper-saline environment offers substantial potential to enhance salt tolerance in sunflowers by modulating their water uptake, chlorophyll, nitrogen metabolism, and better photochemical yield.
