Ecological governance and environmental protection are effective means to understand whether a region's political, economic, cultural and other elements are practiced, while art's involvement in the natural environment is a concrete manifestation of human spiritual civilization and economic foundation.In order to solve the shortcomings of the existing research on competition, cooperation and win-win of art development and natural protection environment, this paper discusses the competition and cooperation mode and natural environment, the combination of art field and environmental protection, and intelligent optimization algorithm, and investigates the neighborhood space evolution of intelligent optimization algorithm and experimental parameter setting.A win-win decision-making model of art development and natural protection environment based on intelligent optimization algorithm is established.The experimental data show that.The fitness value and optimal solution time of the corresponding solution of the co evolutionary hybrid optimization algorithm (CEPSO) proposed in this paper are 71.9 and 21.4 respectively.The algorithm has good performance.
In the process of waterflooding technology in the Jilin oilfield, local radial compressive stress caused by rock deformation results in local casing collapse. According to statistics regarding casing-deformation characteristics, a certain number of these characteristics are approximately parabola-shaped at the radial-deformation bottom, and the boundary of the whole deformation area is approximately symmetrical and double-parabola-shaped. The main work of this article focused on occurrences of such casing deformation. Assuming that, in the process of casing deformation, external work is totally converted into energy consumption due to the deformation, the variation regularity of bearing capacity under local radial load was obtained. In the Qing-1 stratum of the Jilin oilfield, by selecting casing with radial collapse deformation parameters of 41/2″J55, 51/2″J55, 41/2″N80, and 51/2″N80, radial bearing capacity was calculated. Study results showed that the casing bearing-capacity value was reduced by 39.69% compared with the current API 5C3 standard when under the action of a local radial load. The casing collapsed due to the impact of local radial loads produced by mudstone creep. A series of relationships between radial bearing strength and casing parameters were also obtained. The research results are of significant academic value for the compilation of casing design codes or standards under local radial loading.
Additional file 13: Table S3. List of differentially expressed metabolites (DEMs) upon 12 h IFN-γ treatment compared to control in both negative and positive ion modes.
To observe practicality and safety of CT-RIDC for the patients with presaccular lacrimal obstruction and study the related factors. To provide guidance for the diagnosis and treatment of the patients with presaccular lacrimal obstruction.Fifty-four patients (75 eyes) with presaccular lacrimal obstruction, including 3 cases (5 eyes) of upper and lower lacrimal punctum atresia, 15 cases (24 eyes) of superior and inferior canalicular obstruction, 18 cases (28 eyes) of common canaliculus obstruction, 18 cases (18 eyes) of old laceration of superior and inferior canalicular, were recruited. All patients underwent the examination by using 0° and 30° ear endoscope and the imaging characteristics of the inferior orifice of nasolacrimal duct were obtained. Fifty-three cases (65 eyes) with the opening inferior orifice were randomly divided into four groups (15 eyes, 17 eyes, 17 eyes, 16 eyes) according to different angle of head hypsokinesis in the supine position. The OM lines back along the sagittal plane of the head back 10°, 20°, 30°, 40° were measured. The angles of head hypsokinesis were set in accordance with the OM line measurement results.Intubation was successful when the intubation guided needle within the set of epidural anesthetic catheter aided with endoscopy was inserted into the inferior orifice of nasolacrimal duct and then the epidural anesthetic catheter was inserted into the lacrimal duct 6 mm. The angle (θ) between the long axis of the curved part of the intubation guided needle and the long axis of the guided needle was measured. The numbers of intubation success cases in each group were recorded.χ² test was used to compare intubation success rate under the different angle of head hypsokinesis.Scheffe method was used to compare intubation success rate between each group. Contrast medium was then injected into lacrimal duct through the epidural anesthetic catheter for patients with successful intubation and CT scan was carried out. 3D model of lacrimal passage was reconstructed with CT axial scanning.The intubation guided needle was successfully inserted into the inferior orifice of nasolacrimal duct in 44 eyes among 65 eyes with the opening orifice. The number of successful intubation cases were 4 eyes, 15 eyes, 13 eyes, 12 eyes and the intubation success rate was 26.67%, 88.24%, 76.74%, 75.00% according the angle of head hypsokinesis 10° group (15 eyes), 20° group (17 eyes), 30° group (17 eyes), 40° group (16 eyes). The intubation success rate of head hypsokinesis 10° group was significantly lower than that of the other groups. Multiple Comparison by Scheffe Test demonstrated that there was a remarkable difference (P < 0.05) in the intubation success rate between head hypsokinesis 10° group and the other three groups. There were no significant differences in the intubation success rate among head hypsokinesis 20° group, head hypsokinesis 30° group and head hypsokinesis 40° group. The mean of θ was 108° with a range of 93.2°-120.5° by measuring the angle θ of the successful intubation cases. According to the frequency distribution plot, most θ was in 104°-115°. The successful intubation cases (44 eyes) underwent CT scan in the same position immediately after injected contrast medium (Optiray) through the epidural anesthetic catheter. CT images of 28 eyes showed retained contrast medium in the nasolacrimal duct and lacrimal sac. The findings from CT-DCG images were basically agreed with the operation.CD-RIDC may apply to pre-operative examination for the patients with the opening orifice and presaccular lacrimal obstruction.It provideed imaging evidence for diagnosis and therapy and it was safe and practical. Many factors could affect CD-RIDC. The main verified facors were the shape of the inferior orifice of nasolacrimal duct, head position of the patient and the bending angle of the tip of intubation guided needle.
<p>Figure S1. NK cell and T cell numbers in the peripheral blood, non-tumor and tumor tissues of GC patients. Figure S2. Expression of activating and inhibitory receptors on NK cells in the peripheral blood, non-tumor and tumor tissues of GC patients. Figure S3. Expression of CD56 and CD16 on NK cells in the peripheral blood, non-tumor and tumor tissues of GC patients. Figure S4. The expression of HLA-DR on tissue-associated monocytes/macrophages in GC patients. Figure S5. The expression of CD48, PD-L1 and PD-L2 on tissue-associated monocytes/macrophages in GC patients. Figure S6. Co-expression of CD68 and TGF-beta1 in tumors of GC patients. Figure S7. Surface expression levels of TGF-beta1 on tumor-associated monocytes/macrophages in GC patients. Table S1. Clinical characteristics of 65 GC patients. Table S2. Fluorochrome-conjugated antibodies used in flow cytometry. Table S3. Univariate and multivariate analyses of factors associated with survival.</p>
The complete mitochondrial genome of Leptomantella albella Burmeister (Mantodea: Iridopterygidae) is sequenced to analyze the gene arrangement. It is a circular molecule of 15,534 bp in length including 37 genes typically found in other insects. Gene arrangement is similar to Tamolanica tamolana (Insecta: Mantodea) and comprises 13 protein coding genes, two rRNA genes (12S and 16S rRNA) and 22 tRNA genes. The AT content of the overall base composition is 73.7%. The length of control region is 684 bp with 81.9% AT content. Protein-coding genes begin with ATG as start codon except ND3, ND5, ND6, ATP8 and ATP6 with ATA. COI, COII, ND5, ND4L and ND1 end with TAG as stop codon, while COIII, ND2, ND3, ND4, ND6, ATP8, ATP6 and Cyt b end with TAA.
Global warming presents an unprecedented challenge to our planet however comprehensive understanding remains hindered by geographical biases temporal limitations and lack of standardization in existing research. An end to end visual analysis of global warming using three distinct temperature datasets is presented. A baseline adjusted from the Paris Agreements one point five degrees Celsius benchmark based on data analysis is employed. A closed loop design from visualization to prediction and clustering is created using classic models tailored to the characteristics of the data. This approach reduces complexity and eliminates the need for advanced feature engineering. A lightweight convolutional neural network and long short term memory model specifically designed for global temperature change is proposed achieving exceptional accuracy in long term forecasting with a mean squared error of three times ten to the power of negative six and an R squared value of zero point nine nine nine nine. Dynamic time warping and KMeans clustering elucidate national level temperature anomalies and carbon emission patterns. This comprehensive method reveals intricate spatiotemporal characteristics of global temperature variations and provides warming trend attribution. The findings offer new insights into climate change dynamics demonstrating that simplicity and precision can coexist in environmental analysis.
It is observed that a constant unit vector denoted by I is needed to characterize a complete orthonormal set of vector diffraction-free beams. The previously found diffraction-free beams are shown to be included as special cases. The I-dependence of the longitudinal component of diffraction-free beams is also discussed.
'/%3e%3cuse xlink:href='%23a' transform='rotate(23.036 .093 25.536)'/%3e%3cuse xlink:href='%23a' transform='rotate(45.87 1.273 16.18)'/%3e%3cuse xlink:href='%23a' transform='rotate(69.945 .996 12.078)'/%3e%3cuse xlink:href='%23a' transform='rotate(20.66 -19.689 31.932)'/%3e%3c/svg%3e)