3,600 research outputs found
Phlogothamnus acutaedeagus Li 2011
Phlogothamnus acutaedeagus Li, 2011 Figs. 1–3. Phlogothamnus acutaedeagus Li, 2011 in Li, Dai & Xing, 2011: 180. Diagnosis. This species was described from Sichuan, China, and the illustrations of male genitalia were provided by Li et al. (2011). It is similar to P. productus but may be distinguished from the latter by the forewing with irregular black markings. Material examined. China: 1♂ (Holotype), Sichuan Prov., Changning, 29 April 2008, coll. Hongrong Li; Paratypes, 1 ♀, same data as holotype (GUGC). Distribution: China (Sichuan) (Li et al., 2011). Note. The male genitalia of the holotype of this species were mounted on a slide and are not redrawn.Published as part of Yao, Binbin, Zhang, Runzhi & Xing, Jichun, 2022, Review of Chinese species of genus Phlogothamnus Ishihara (Hemiptera Cicadellidae: Deltocephalinae) with description of a new species, pp. 422-431 in Zootaxa 5129 (3) on page 423, DOI: 10.11646/zootaxa.5129.3.6, http://zenodo.org/record/650125
Phlogothamnus luteoguttatus Li 2011
Phlogothamnus luteoguttatus Li, 2011 Figs. 7–9. Phlogothamnus luteoguttatu Li, 2011 in Li, Dai & Xing, 2011: 182. Diagnosis. This species is similar to P. acutaedeagus but can be distinguished by the crown and forewing without black markings. Material examined. China: 1♂ (Holotype), Hainan Prov., Dofang, 9 July 2007, coll. Yujian Li (GUGC). Distribution: China (Hainan) (Li et al., 2011). Note. The male genitalia of the holotype of this species were mounted on a slide and are not redrawn.Published as part of Yao, Binbin, Zhang, Runzhi & Xing, Jichun, 2022, Review of Chinese species of genus Phlogothamnus Ishihara (Hemiptera Cicadellidae: Deltocephalinae) with description of a new species, pp. 422-431 in Zootaxa 5129 (3) on page 424, DOI: 10.11646/zootaxa.5129.3.6, http://zenodo.org/record/650125
Phlogothamnus productus Li & Xing 2011
Phlogothamnus productus Li & Xing, 2011 Figs. 16–18; Figs. 50–56. Phlogothamnus productus Li & Xing, 2011 in Li, Dai & Xing, 2011: 183. Diagnosis. This species resembles P. acutaedeagus but can be distinguished from the latter by the forewings without spots. Material examined. China: 1♂ (Holotype), Hainan Prov., Dongfang, 9 July 2007, coll. Jichun Xing (GUGC); Paratypes, 1 ♀, same data as holotype (GUGC). Distribution: China (Hainan) (Li et al., 2011).Published as part of Yao, Binbin, Zhang, Runzhi & Xing, Jichun, 2022, Review of Chinese species of genus Phlogothamnus Ishihara (Hemiptera Cicadellidae: Deltocephalinae) with description of a new species, pp. 422-431 in Zootaxa 5129 (3) on page 425, DOI: 10.11646/zootaxa.5129.3.6, http://zenodo.org/record/650125
Phlogothamnus polymaculatus Li & Song 2010
Phlogothamnus polymaculatus Li & Song, 2010 Figs. 13–15; Figs. 41–49. Phlogothamnus polymaculatus Li & Song, 2010: 607; Li et al., 2011: 180. Diagnosis. This species is similar to P. rugosus, but can be distinguished from the latter by the shorter pygofer appendage and the more robust style. Material examined. China: 1♂ (Holotype), Jiangxi Prov., Jiulianshan, 19 July2008, coll. Zehong Meng (GUGC); Paratypes, 1♂ 1 ♀, Jiangsu Prov., Nanjing, 24 August 2009, coll. Pei Zhang (GUGC); 3♂♂, Yunnan Prov., Lula, 20 June 2016, coll. Hongrong Li (GUGC); 1♂, Yunnan Prov., Yinjiang, 17 August 2018, coll. Yongqin Fang (GUGC); 2♂♂ 2♀♀, Yunnan Prov., Mengla, 13 June 2019, coll. Yongqin Fang (GUGC); 1♂ 1 ♀, Yunnan Prov., Lula, 20 June 2019, coll. Fenge Li (GUGC). Distribution: China (Jiangxi, Jiangsu, Yunnan) (Li & Song, 2010; Li et al., 2011). Note. The original figures of Li & Song (2010) and Li et al. (2011) lack detail of the aedeagus in ventral view. Here, we have redrawn the male genitalia.Published as part of Yao, Binbin, Zhang, Runzhi & Xing, Jichun, 2022, Review of Chinese species of genus Phlogothamnus Ishihara (Hemiptera Cicadellidae: Deltocephalinae) with description of a new species, pp. 422-431 in Zootaxa 5129 (3) on page 425, DOI: 10.11646/zootaxa.5129.3.6, http://zenodo.org/record/650125
Phlogothamnus rugosus Li 2011
Phlogothamnus rugosus Li, 2011 Figs. 19–21; Figs. 57–64. Phlogothamnus rugosus Li, 2011 in Li, Dai & Xing, 2011: 183. Diagnosis. This species resembles P. polymaculatus but can be distinguished from the latter by the thinner pygofer ventral process and style and more robust aedeagus. Material examined. China: 1♂ (Holotype), Guizhou Prov., Fanjingshan, 3 August 2001, coll. Maofa Yang (GUGC); Paratypes, 2♂♂, Guizhou Prov., Fanjingshan, 2 August 2014, coll. Qiang Luo (GUGC); 1♂ 1 ♀, Jiangsu Prov., Baohuashan, 24 August 2009, coll. Pei Zhang (GUGC). Distribution: China (Guizhou, Jiangsu) (Li et al., 2011). Note. The original figures of Li (in Li et al., 2011) lack the aedeagus in the ventral and dorsal view. Here, we have redrawn the male genitalia.Published as part of Yao, Binbin, Zhang, Runzhi & Xing, Jichun, 2022, Review of Chinese species of genus Phlogothamnus Ishihara (Hemiptera Cicadellidae: Deltocephalinae) with description of a new species, pp. 422-431 in Zootaxa 5129 (3) on page 425, DOI: 10.11646/zootaxa.5129.3.6, http://zenodo.org/record/650125
Roadless areas as an effective strategy for protected area expansion: Evidence from China
The post-2020 global biodiversity framework aims to expand the global coverage of protected areas (and other effective area-based conservation measures) to 30% by 2030. Roadless areas are ecologically important and can play a role in achieving this target but lack explicit emphasis in conservation frameworks. Here, we identify roadless areas qualified for protected area expansion in China. It is estimated that 53% of China's territory remained roadless (78% unprotected) in 2018. Roadless areas encompass higher conservation values than existing protected areas. We propose 4 strategies based on different value propositions for selecting roadless areas to expand protected areas to 30% national coverage. These strategies will make protected areas perform better in reducing human disturbance, improving spatial imbalances, and increasing species representation. However, protecting roadless areas will generate social trade-offs between protection demand objectives and economic growth generated from roads, especially in the surroundings of major urban agglomerations
sj-docx-1-cll-10.1177_09636897231218382 – Supplemental material for RNA-Seq Analysis Reveals Potential Neuroprotective Mechanisms of Pachymic Acid Toward Iron-Induced Oxidative Stress and Cell Death
Supplemental material, sj-docx-1-cll-10.1177_09636897231218382 for RNA-Seq Analysis Reveals Potential Neuroprotective Mechanisms of Pachymic Acid Toward Iron-Induced Oxidative Stress and Cell Death by Shuyang Hu, Baili Yang, Binbin Li, Qianqian Fan, Tinglong Wu, Shanshan Li, Dong Wang, Tao Yang and Zhenghua Song in Cell Transplantation</p
FIGURES 1–12. Phlogothamnus acutaedeagus Li, 2011 in Review of Chinese species of genus Phlogothamnus Ishihara (Hemiptera Cicadellidae: Deltocephalinae) with description of a new species
FIGURES 1–12. Phlogothamnus acutaedeagus Li, 2011: 1. ♂, dorsal view; 2. ♂, lateral view; dorsal view; 3. ♂, face. Phlogothamnus circinatus sp. nov.: 4. ♂, dorsal view; 5. ♂, lateral view; dorsal view; 6. ♂, face. Phlogothamnus luteoguttatus Li, 2011: 7. ♂, dorsal view; 8. ♂, lateral view; dorsal view; 9. ♂, face. Phlogothamnus maculiceps Ishihara, 1961: 10. ♂, dorsal view; 11. ♂, lateral view; dorsal view; 12. ♂, face.Published as part of Yao, Binbin, Zhang, Runzhi & Xing, Jichun, 2022, Review of Chinese species of genus Phlogothamnus Ishihara (Hemiptera Cicadellidae: Deltocephalinae) with description of a new species, pp. 422-431 in Zootaxa 5129 (3) on page 426, DOI: 10.11646/zootaxa.5129.3.6, http://zenodo.org/record/650125
Use soft-decision error-correction codes in Phase-Change Memory
Researches indicate that the resistance of phase-change material will become larger over the time. Use time-aware based soft-decision error correction code, which needs LLR to decode, can correct the errors in multilevel PCM effectively. Accurate LLR needs to read the resistance accurately, which will lead to a longer transmission latency. In this paper, we proposed a non-uniform correction strategy, which can reduce the read levels maintaining bit-error-rate performance. We use LDPC in correction of 4-level per cell PCM, and get the result via computer simulation. ? 2015 IEEE.E
sj-xlsx-1-tct-10.1177_15330338231202881 - Supplemental material for Bronchoalveolar Lavage as Potential Diagnostic Specimens to Genetic Testing in Advanced Nonsmall Cell Lung Cancer
Supplemental material, sj-xlsx-1-tct-10.1177_15330338231202881 for Bronchoalveolar Lavage as Potential Diagnostic Specimens to Genetic Testing in Advanced Nonsmall Cell Lung Cancer by Xuwen Lin, Yazhou Cai, Chenyu Zong, Binbin Chen, Di Shao, Hao Cui, Zheng Li and Ping Xu in Technology in Cancer Research & Treatment</p
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