Xiao-Lei Huang

Publications (3)7.14 Total impact

• Source

  Available from: Fumin Lei

  Article: Use of parsimony analysis to identify areas of endemism of chinese birds: implications for conservation and biogeography.

  Xiao-Lei Huang, Ge-Xia Qiao, Fu-Min Lei
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  ABSTRACT: Parsimony analysis of endemicity (PAE) was used to identify areas of endemism (AOEs) for Chinese birds at the subregional level. Four AOEs were identified based on a distribution database of 105 endemic species and using 18 avifaunal subregions as the operating geographical units (OGUs). The four AOEs are the Qinghai-Zangnan Subregion, the Southwest Mountainous Subregion, the Hainan Subregion and the Taiwan Subregion. Cladistic analysis of subregions generally supports the division of China's avifauna into Palaearctic and Oriental realms. Two PAE area trees were produced from two different distribution datasets (year 1976 and 2007). The 1976 topology has four distinct subregional branches; however, the 2007 topology has three distinct branches. Moreover, three Palaearctic subregions in the 1976 tree clustered together with the Oriental subregions in the 2007 tree. Such topological differences may reflect changes in the distribution of bird species through circa three decades.
  International Journal of Molecular Sciences 01/2010; 11(5):2097-108. · 2.60 Impact Factor
• Source

  Available from: Fumin Lei

  Article: Areas of endemism and patterns of diversity for aphids of the Qinghai‐Tibetan Plateau and the Himalayas

  Xiao-Lei Huang, Fu-Min Lei, Ge-Xia Qiao
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  ABSTRACT: Aim The study aimed to identify areas of endemism for aphids in the Qinghai-Tibetan Plateau and the Himalayas (QTPH), and to test congruence between patterns of endemism and patterns of overall species richness identified in a previous study.Location The QTPH.Methods A distribution data base of 326 endemic aphids in the QTPH was compiled. The study area was divided into a grid of 2°× 2° operative geographical units. Parsimony analysis of endemicity (PAE) was used to identify areas of endemism, and the diversity patterns of endemic species were then mapped using GIS.Results We identified 326 endemic species belonging to 138 genera within Adelgidae and 14 subfamilies of Aphididae. Five areas of endemism were found using PAE analysis: the eastern Himalayas, the western Himalayas, north-western Yunnan, southern Tibet and the eastern QTPH. Maps of patterns of endemism identified four major centres for endemic aphids, namely the western Himalayas, the eastern Himalayas (or Sikkim-Assam Himalayas), north-western Hengduan Mountains and the mountains of southern Gansu Province, and three minor centres, southern Tibet, south-eastern Tibet and the eastern Qinghai Province in the north-eastern QTPH.Main conclusions Our study identifies major centres of aphid endemism. Furthermore, there is a noticeable congruence between patterns of endemism and patterns of species richness. The patterns of endemism were most likely influenced by the recent uplift of the QTPH.
  Journal of Biogeography 01/2008; 35(2):230 - 240. · 4.54 Impact Factor
• Article: [Enhancement of antioxidant capability of cancer patients during chemotherapy by reduced glutathione].

  Bu-Dong Zhu, Xin Li, Qi-Cheng Zhao, Xiao-Lei Huang
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  ABSTRACT: It is unknown how administration of reduced glutathione (GSH) affects chemotherapy of cancer patients. This study was designed to investigate the effect of GSH on lipid peroxidation, and activities of antioxidant enzyme among cancer patients with chemotherapy. Sixty-two cancer patients with chemotherapy were enrolled randomly into AB or BA group in cross-over pattern. In AB group, combination of chemotherapy and GSH was administrated first, then following chemotherapy alone was given 21 or 28 days later. In group BA, chemotherapy alone was administrated first, then the combination therapy was given. Duration of chemotherapy was 2-5 days, 21-28 days for a cycle, depended on chemotherapy strategies. GSH was given as a 15 minute intravenous infusion at the dose of 1 500 mgx(m(2)xd)(-1) for 7 days from day 1. Serum samples were collected from the patients on the day just before the chemotherapy, the 7(th) day, and the 21(st) (if 21 days per cycle of the chemotherapy) or 28(th) day of treatment. Concentration of malondialdehyde (MDA), activity of glutathione peroxidase (GSH-Px), and total superoxide dismutase (T-SOD) of serum samples were analyzed biochemically. (1)Administration of chemotherapy significantly increased serum MDA level on the 7(th) day compared with that before chemotherapy (mean+/-SD,6.12+/-1.94 micromol/L versus 4.63+/-1.87 micromol/L,P< 0.01). The increased serum MDA level was restored partially (5.05+/-2.07)micromol/L on the 21(th) or 28(th) day, but still higher than that before chemotherapy (P< 0.05). (2)Serum activity of T-SOD and GSH-Px decreased on the 7(th) day (P< 0.01) and restored partially on the 21(th) or 28th day, but still lower than that before chemotherapy (T-SOD, P< 0.05;GSH-Px,P< 0.01).(3)Co-treatment of GSH prevents lipid peroxidation and depletion of antioxidant enzymes by chemotherapy partially but significantly (P< 0.01). (4)Similar results were obtained in both AB group and BA group. Chemotherapy depletes antioxidant capability of cancer patients and co- treatment of GSH might prevent such depletion.
  Ai zheng = Aizheng = Chinese journal of cancer 05/2004; 23(4):452-5.