RESUMO
The adequate elevation of CO2 concentrations (e [CO2]) could not be assessed by constrained analysis of comparative experimental study for optimum plant growth and yield with improved fruit quality owing to the lack of conjunctive investigation of plant parametric responses. Instead, the principal component analysis (PCA) and technique for order preference by similarity to ideal solution (TOPSIS) assessed and quantified the parametric plant responses to identify the adequate level of e [CO2] for optimum plant growth and yield. In this study, tomato plants were grown under an ambient CO2 (a [CO2], 500 µmol mol-1) and three e [CO2] (700, 850 and 1000 µmol mol-1): named EC700, EC850 and EC1000, respectively, in autumn-winter (AW) 2020 and spring summer (SS) 2021 growing seasons to investigate and evaluate the plant parametric responses under e [CO2]. The tomato plant's response with maximum transportability of biomass to fruits was observed under 700 µmol mol-1. The plant height, stem diameter and LAI were enhanced compared to a [CO2] at the optimum level under 1000 µmol mol-1 (by 50.53, 20.98 and 44.44%) and 700 µmol mol-1 (by 22.41, 12.09 and 26.88%) in Aw 2020; Ss 2021, respectively. The optimum yield was increased under 700 µmol mol-1 by 73.95% and 55.58% in Aw 2020; Ss 2021, respectively. EC700 was ranked as a priority by TOPSIS with 0.632 and 0.694 plant response performance index in Aw 2020; Ss 2021, respectively, to get optimum tomato growth, yield, water use efficiency and fruit quality. The results of this study are beneficial for commercial greenhouse crop production by fumigating the adequate level of e [CO2], to reduce the cost of CO2 fertigation, enhance the yield and save the water quantity.
RESUMO
Objective To evaluate the clinical application of computer-aided electromagnetic imaging navigation in nasal endoscopic surgery.Methods Twenty-two cases of nasal endoscopic surgery with intraoperative imaging navigation were retrospectively reviewed,including 16 cases of sinusitis with or without polyp;5 cases of nasal inverting papilloma; 1 case of maxillary capillary hemangioma.All cases were operated with computer-aided electromagentic imaging navigation and nasal endoscope.Results The preoperative preparing time would take 4-10 minutes.In 22 cases,the localization accuracy between 3-D image landmarks of navigation system and actual anatomical landmarks was less than 1 mm.The optic nerve and other anatomical landmarks could be orientated accurately in intraoperative procedures.No complication occurred.Conclusions Nasal endoscope combined with computer-aided electromagnetic imaging navigation provides accurate anatomical localization of nasal cavity,sinuses and anterior skull base.It could improve the effectiveness and decrease surgical complications,especially in complicated cases.
