reactive n
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2022 ◽  
Author(s):  
Zihan Wang ◽  
Yulong Yin ◽  
Yingcheng Wang ◽  
Xingshuai Tian ◽  
Hao Ying ◽  
...  

Abstract Sustainably feeding the growing population in China attracts attention globally. Despite practices success, producing enough food to simultaneously address resource and pollution problems has been infeasible. To assess how to achieve this goal in 2035, we created a pathway that synergistic combining improved managements and cropland redistribution based on 11.1 million farmer surveys and 4,272 georeferenced field observations. Here, we firstly selected the practices of top 10% performers in crop yield and nitrogen (N) efficiency as crop-specific attainable improved managements at the county level. The optimized crop distribution within improved managements was then performed to minimize inputs (N and phosphorus fertilizer, irrigation water) or environmental impacts (reactive N [Nr] loss and greenhouse gas [GHG] emissions). We identified that combing improved managements and cropland redistribution could produce enough food demands in 2035, with 24% more production compared to 2012. It also reduced the inputs and environmental impacts in a range of 19%-35%, mainly sourced from the central and eastern coastal areas by improved productivity and diminished cropland of fruit and vegetables. These findings highlight the necessity for a synergistic combination of measures to sustainably feed the growing population and establish a more realistic and effective policy.


2021 ◽  
Vol 14 (1) ◽  
pp. 272
Author(s):  
Md. Mizanur Rahman ◽  
Jatish Chandra Biswas ◽  
Mark A. Sutton ◽  
Julia Drewer ◽  
Tapan Kumar Adhya

To assess the status of and trends in agricultural nitrogen (N) flows and their wider consequences for Bangladesh, in this study, we analyzed data from national and international bodies. The increased rates of N fertilizer applied for increased food production leaves behind a huge amount of unutilized reactive N (Nr). N fertilizer use is the largest in the crop sector, an important sector, where current annual consumption is 1190 Gg. The present combined annual Nr production from crop, fishery, and livestock sectors is ~600 Gg, while emissions of nitrous oxide (N2O), a potent greenhouse gas, are ~200 Gg. Poor N management results in Nr leaking into the environment, which has increased approximately 16-fold since 1961. One potential consequence is the disruption of ecosystem functioning. The balanced tradeoff between food production and reducing Nr input needs to be achieved. One solution to reducing Nr may be a holistic approach that optimizes N application rates and incorporates waste of one subsector as an input to another applying the principle of the circular economy.


Author(s):  
Michael N Ashfold ◽  
Yu A Mankelevich

Abstract The growth rate of diamond by chemical vapour deposition (CVD) from microwave (MW) plasma activated CH4/H2 gas mixtures can be significantly enhanced by adding trace quantities of N2 to the process gas mixture. Reasons for this increase remain unclear. The present article reports new, self-consistent two-dimensional modelling of MW activated N2/H2 and N2/CH4/H2 plasmas operating at pressures and powers relevant to contemporary diamond CVD, the results of which are compared and tensioned against available experimental data. The enhanced N/C/H plasma chemical modelling reveals the very limited reactivity of N2 under typical processing conditions and the dominance of N atoms amongst the dilute ‘soup’ of potentially reactive N-containing species incident on the growing diamond surface. Ways in which these various N-containing species may enhance growth rates are also discussed.


2021 ◽  
Vol 787 ◽  
pp. 147552
Author(s):  
Fotis Sgouridis ◽  
Christopher A. Yates ◽  
Charlotte E.M. Lloyd ◽  
Ernesto Saiz ◽  
Daniel N. Schillereff ◽  
...  

2021 ◽  
pp. 108876792110288
Author(s):  
Ji Seun Sohn ◽  
Adrian Raine ◽  
Young-Oh Hong

This study tests the hypothesis that psychopathy is more associated with instrumental homicides than mixed and reactive homicides, and explores relationships between Psychopathy Checklist-Revised (PCL-R) facet/item scores and different forms of homicide: instrumental ( n = 130), mixed ( n = 103), and reactive ( n = 219) homicides. Instrumental homicides scored higher on facet 2 ( p < .01) but scored lower on facet 4 ( p < .1) compared to reactive homicides, whereas no facet scores differed between mixed and reactive homicides. Among the items of facet 2 (affective), remorselessness (item 6), and callousness (item 8) were predictive of instrumental homicide.


2021 ◽  
Author(s):  
Ruibin Liu ◽  
Shaoqi Zhan ◽  
Ye Che ◽  
Jana Shen

Discovery of targeted covalent inhibitors directed at nucleophilic cysteines is attracting enormous interest. The front pocket (FP) N-cap cysteine has been the most popular site of covalent modification in kinases. Curiously, a long-standing hypothesis associates the N-cap position with cysteine hyper-reactivity; however, traditional computational methods suggest that the FP N-cap cysteines in all human kinases are predominantly unreactive at physiological pH. Here we applied a newly developed GPU-accelerated continuous constant pH molecular dynamics (CpHMD) tool to test the N-cap hypothesis and elucidate the cysteine reactivities. Simulations showed that the N-cap cysteines in BTK/BMX/TEC/ITK/TXK, JAK3, and MKK7 sample the reactive thiolate form to varying degrees at physiological pH; however, those in BLK and EGFR/ERBB2/ERBB4 which contain an Asp at the N-cap+3 position adopt the unreactive thiol form. The latter argues in favor of the base-assisted thiol-Michael addition mechanisms as suggested by the quantum mechanical calculations and experimental structure-function studies of EGFR inhibitors. Analysis revealed that the reactive N-cap cysteines are stabilized by hydrogen bond as well as electrostatic interactions, and in their absence a N-cap cysteine is unreactive due to desolvation. To test a corollary of the N-cap hypothesis, we also examined the reactivities of the FP N-cap+2 cysteines in JNK1/JNK2/JNK3 and CASK. Additionally, our simulations predicted the reactive cysteine and lysine locations in all 15 kinases. Our findings offer a systematic understanding of cysteine reactivities in kinases and demonstrate the predictive power and physical insights CpHMD can provide to guide the rational design of targeted covalent inhibitors.


2021 ◽  
Vol Special Issue (1) ◽  
pp. 53-67
Author(s):  
Manisha Mishra ◽  
Umesh C Kulshrestha

The present study reports spatio-temporal distribution pattern of major gaseous (NH3 and NO2) and particulate water soluble total nitrogen (pWSTN) in the ambient air to explore the seasonal variation, major interactions and dominating sources. Considering the major hotspot of atmospheric reactive nitrogen (N) emission, three sites in Indo-Gangetic plain (IGP) were selected based on different local source parameters. Results have shown that gas phase reactive N contribute up to 90% of total analyzed reactive N, where NH3 imparted highest at all the three sites. Prayagraj, a fast growing urban site, has shown highest concentrations of NH3 (72.0 μg m−3), followed by Madhupur rural site (57.7 μg m−3) and Delhi, an urban megacity site (35.8 μg m−3). As compared to previous studies conducted at different sites of IGP, NH3 concentrations were reported to be the highest at the former two sites. However, unlike NH3, NO2 levels were recorded lower at Madhupur (3.1 μg m−3) and Prayagraj (9.4 μg m−3) sites as compared to Delhi (13.4 μg m−3). Similarly, pWSTN concentrations were in the order of Madhupur (6.6 μg m−3) < Prayagraj (10.0 μg m−3) < Delhi (10.1 μg m−3). A strong correlation of NO2 with pWSTN at urban sites has shown the crucial role of NO2 in the formation of nitrogenous aerosols. Significant spatial variation can be attributed to varying local emission sources ranging from microbial emission from improper sewage treatment and open waste dumping at Prayagraj, agricultural activities at Madhupur and vehicular exhausts at Delhi site.


Author(s):  
Ali Alsuraifi ◽  
Essyrose Mathew ◽  
Dimitrios A. Lamprou ◽  
Anthony Curtis ◽  
Clare Hoskins

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