Unveiling the efficacy of Bacillus faecalis and composted biochar in alleviating arsenic toxicity in maize.

Arsenic (As) contamination is a major environmental pollutant that adversely affects plant physiological processes and can hinder nutrients and water availability. Such conditions ultimately resulted in stunted growth, low yield, and poor plant health. Using rhizobacteria and composted biochar (ECB) can effectively overcome this problem. Rhizobacteria have the potential to enhance plant growth by promoting nutrient uptake, producing growth hormones, and suppressing diseases. Composted biochar can enhance plant growth by improving aeration, water retention, and nutrient cycling. Its porous structure supports beneficial microorganisms, increasing nutrient uptake and resilience to stressors, ultimately boosting yields while sequestering carbon. Therefore, the current study was conducted to investigate the combined effect of previously isolated Bacillus faecalis (B. faecalis) and ECB as amendments on maize cultivated under different As levels (0, 300, 600 mg As/kg soil). Four treatments (control, 0.5% composted biochar (0.5ECB), B. faecalis, and 0.5ECB + B. faecalis) were applied in four replications following a completely randomized design. Results showed that the 0.5ECB + B. faecalis treatment led to a significant rise in maize plant height (~ 99%), shoot length (~ 55%), root length (~ 82%), shoot fresh (~ 87%), and shoot dry weight (~ 96%), root fresh (~ 97%), and dry weight (~ 91%) over the control under 600As stress. There was a notable increase in maize chlorophyll a (~ 99%), chlorophyll b (~ 81%), total chlorophyll (~ 94%), and shoot N, P, and K concentration compared to control under As stress, also showing the potential of 0.5ECB + B. faecalis treatment. Consequently, the findings suggest that applying 0.5ECB + B. faecalis is a strategy for alleviating As stress in maize plants.

Unusual trajectory of a bullet from the shoulder to the brain: an emergency department perspective on finding a missing bullet.

Terminal ballistics continues to struggle with bullet trajectory reconstruction and interpretation. This is a case of a young man presented with a very unusual trajectory of a bullet from the left shoulder to the brain parenchyma. The single wound and altered mentation prompted a CT head and neck scan, which revealed a retained bullet in the brain parenchyma, traversing from the left shoulder, across the neck and into the brain without causing significant damage to vital organs. We managed the patient conservatively. Emergency physicians dealing with gunshot injuries should thoroughly search for the bullet in cases where only a single wound is present and the bullet is missing, and they should have a basic understanding of the ballistics to understand the mechanism and injury pattern sustained by the bullet. This atypical ballistic trajectory scenario emphasises the need to exercise vigilance in accurately predicting the trajectory when the ballistic route is unknown.