Enhancing biomineralization process efficiency with trained bacterial strains:A technical perspective

Microorganisms have been essential in the natural world for millions of years,contributing significantly to environmental interaction.It has been disoverd that some bacteria are potential in geotechnical and environmental engineering due to their outstanding ability of biomineralization.Therefore,how to train bacteria as special and professional“workers”for biomineralization is increasingly a key topic in related research fields.This article briefly introduces the methods that are commonly utilized to improve the environmental adaptability and mineralization efficiency of bacteria,including microbial domestication,microbial mutation breeding,microbial targeted screening,and bio-stimulation,which make great implications to advance the field of biomineralization.

Study of the characteristics of rocket-triggered lightning energetic radiation and its relationships with the discharge parameters

Through the use of the independently developed Thunderstorm Energetic Radiation Observation System(TEROS),observation experiments of rocket-triggered lightning energetic radiation(RLER)were conducted for the first time at the Field Experiment Base on Lightning Sciences,China Meteorological Administration from May 2021 to July 2021.A total of 17 X-ray bursts were detected during all of the 22 leader/return strokes.In this study,the energy,time,and direction characteristics of Xray burst and its relationships with the corresponding discharge parameters,such as the return stroke peak current,half-peak width,rise time,and interstroke time interval,as well as the associated physical processes,are analyzed and discussed.Results showed that energetic radiation is ubiquitous in triggered lightning and is closely related to the last downward leader phase before the return stroke.The photon energies were concentrated in tens to hundreds of ke V,and the average duration of RLER was approximately 27μs.Moreover,RLER exhibited directional property inconsistent with a vertical downward beam,which may be related to the development orientation of the lightning leader.The intensity of RLER was positively correlated with the return stroke peak current,indicating that it directly depends on the lightning intensity,but it would be modulated by the lightning channel conditions.The 17 RLER events showed 3 different time distribution patterns,namely,discrete,continuous,and discrete/continuous pulses,of which the discharge parameters were also different.The discrete pulse event had the longest duration,a small half-peak width,and a long interstroke time interval.Furthermore,all of these events occurred during the last several leader/return strokes.The continuous pulse event had a short duration and a small peak current.The discrete/continuous pulse event had a moderate duration and a large half-peak width and peak current.These three distinct time distribution patterns may be determined by different development types of lightning leaders.Our observations support the leader high-field runaway mechanism.