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2. Leptobrachella wulingensis Qian & Xia & Cao & Xiao & Yang 2020, sp. nov

Author

Qian, Tian-Yu, Xia, Xin, Cao, Yue, Xiao, Neng-Wen, and Yang, Dao-De

Subjects
Amphibia, Leptobrachella wulingensis, Leptobrachella, Megophryidae, Animalia, Biodiversity, Anura, Chordata, Taxonomy
Abstract

Leptobrachella wulingensis sp. nov. Figs. 3���6. Holotype. CSUFT 201, adult female, collected by Tianyu Qian and Xin Xia from Tianzishan Nature Reserve, Zhangjiajie, Hunan Province, China (29��23���12.67���N, 110��27���29.6���E), elevation 979 m. on September 9, 2019. Paratypes. CSUFT 177, adult female, CSUFT 178, subadult female and CSUFT 179, 180, two adult males, collected by Tianyu Qian and Xin Xia from Tianquanshan Forest Park, Zhangjiajie, Hunan Province, China (29��15���57.58���N, 110��12���13.38���E), elevation 414 m. on September 7, 2019; CSUFT 193, adult male and CSUFT 194, adult female, collected by Tianyu Qian and Xin Xia from Tianquanshan Forest Park (29��15���39.43���N, 110��13���29.47���E), elevation 530 m. on September 8, 2019; CSUFT 200, adult male, CSUFT 202���204, three subadult females, collected by Tianyu Qian and Xin Xia from the same location as holotype, on September 9, 2019; CSUFT 301, subadult female and CSUFT 302, 303, two subadult males, collected by Yue Cao and Xin Xia from the same location as the holotype, on August 6, 2019. Etymology. The specific name wulingensis is derived from the Wuling Mountains, where the two collection localities occur. The suggested common name is the ���Wuling leaf-litter toad��� in English and ���W�� L��ng Zh��ng Tū Ch��n (Ē������������)��� in Chinese. Diagnosis. Leptobrachella wulingensis sp. nov. can be distinguished from its congeners by having (1) medium body size (SVL 24.5���32.8 mm in four adult males, 29.9���38.5 mm in three adult females); (2) dorsum brown to reddish brown with indistinct markings; (3) dorsal skin shagreened with sparse, large warts, sometimes with longitudinal ridges; (4) ventral surface of body creamy white or translucent creamy white, with distinct or indistinct pale brown speckling on chest and margins, and marbled texture on belly; small tubercle-like white dots presents on chest and anterior region of abdomen in some specimens; (5) tympanum distinct, slightly concave; (6) flanks with small to moderate black spots, with glandular warts present among these spots; (7) absence of webs and lateral fringes on fingers, toes with rudimentary webbing and narrow lateral fringes; (8) distinct longitudinal ridges under toes and interrupted at the articulations; (9) tibia length 44%���49% of SVL in males; (10) iris bicolored with bright orange or golden upper half, fades to silver in lower half; (11) ventrolateral glands distinctly visible, forming an incomplete line; small supra-axillary and femoral glands present; pectoral glands indistinct; (12) tongue cordiform, notched behind; (13) and dense small white conical spines present on lateral and ventral surface of tarsus, surface of tibia-tarsal, inner-side surface of shank and around cloacal region. Description of holotype. Adult female, medium in body size, SVL 31.1 mm; head length about equal to head width, HDL/HDW 1.03; snout rounded, snout length equal to eye diameter, SNT/EYE 1.00; nostril closer to snout than eye; canthus rostralis gently rounded; loreal region slightly concave; pupil vertical; vomerine teeth absent; tympanum rounded, slightly concave, upper margin in contact with supratympanic ridge; supratympanic fold from eye towards supra-axillary gland; tongue cordiform, notched behind. Tips of fingers rounded, slightly swollen; relative finger lengths III> IV = II> I; subarticular tubercles absent; inner palmar tubercle large and rounded, connected with a smaller, round outer palmar tubercle; absence of webbing and lateral fringes on fingers; tips of toes rounded and thickened; relative toe length IV> III> V> II> I; subarticular tubercles absent, replaced by longitudinal dermal ridges, extending on phalanges and interrupted at the articulations; elongate, large oval inner metatarsal tubercle present; toes webbing rudimentary; narrow lateral fringes present on all toes. Tibia 47% of snout-vent length; tibiotarsal articulation reaches to middle of eye. Dorsal surface shagreened, the region between eyes relatively smooth, dense large warts present on the posterior part of dorsum; upper eyelids and limbs with small tubercles; flanks with distinct glandular warts forming two rows; skin on ventral surfaces of trunk, head and forelimbs smooth; white conical spines present on lateral and ventral surface of tarsus, surface of tibia-tarsal, inner-side surface of shank and surface around cloacal region; pectoral gland elongate, and femoral gland oval; pectoral glands greater than femoral glands, PEC/FEM 1.08; femoral glands situated on the posteroventral surface of thigh, closer to knee than to vent; supra-axillary gland raised; ventrolateral gland line distinctly visible. Coloration of holotype in life. Dorsal surface brown with a dark inverted triangular marking in the interorbital region and followed by a "W" shaped mark between axillae; a ���Y��� shape mark between the loreal region linked to the triangular marking between the eyes; three vertical bars present at the rostral-eye region; supratympanic line weak, lower edge black; granules present on dorsum, flanks and limbs having dark orange pigmentation in the center; moderate black spots presents on flanks; glandular warts on flanks white to orange; transverse bars presents on lower arms and legs, as well as fingers and toes; elbow and upper arms coppery orange. Ventral surface of throat and limbs greyish-pink, chest greyish pink with creamy white pigmentation, belly creamy white but translucent with greyish-pink skin color; dense small tubercle-like white dots present on chest; marbled texture present on belly; vaguely visible brown flecks present on chest and margin of belly, close to the ventrolateral gland line; supra-axillary gland orange, ventrolateral glands whitish orange, femoral and pectoral glands white; iris bicolored, golden in the upper half, and fade to dark silver in lower half. Coloration of holotype in preservative. The background color on the dorsum faded to dark grey; dorsalateral markings have become hardly visible; dark vertical bars, transverse bars and black spots distinct; the orange color on tubercles, glands, and elbow has faded to white-grey; ventral surfaces of body and limbs grey-white with dark pigmentations present at the edge of jaw and margin of belly, sparse pigmentations vaguely visible on the chin and chest; iris uniformly dark grey, the upper half and lower half are indistinguishable. Measurements of holotype (in mm). SVL 31.1; HDL 10.8; HDW 10.5; SNT 4.2; EYE 4.2; IOD 3.4; TMP 1.7; TEY 1.1; TIB 14.5; ML 7.9; PL 13.1; PEC 1.4; FEM 1.3. Comparison. Comparative morphological data of Leptobrachella wulingensis sp. nov., and 53 recognized Leptobrachella species occurring north of the Isthmus of Kra are listed in Table 3. Genetically, L. wulingensis sp. nov. is most closely related to L. alpina, L. bijie, L. bourreti, L. eos, L. oshanensis, L. purpuraventra, L. purpurus, and L. suiyangensis. The uncorrected 16S rRNA between L. wulingensis sp. nov. and above mentioned species are 3.6%���4.6% (L. alpina), 2.3%���2.9% (L. bourreti), 4.0% (L. eos), 3.9%���4.3% (L. oshanensis), 4.0% (L. purpuraventra), 4.3% (L. purpurus), and 4.3% (L. suiyangensis). Morphological characters can further distinguish them by the following: L. wulingensis sp. nov. differs from the phylogenetically close congener, L. purpurus by having narrow lateral fringes on toes (vs. wide in purpurus), brown/reddish brown above in life (vs. purplish brown in purpurus), presence of longitudinal skin folds on dorsum (vs. absent in purpurus), supratympanic line weak (vs. distinct and black in purpurus), and dorsal tubercles orange in life (vs. reddish in purpurus). L. wulingensis sp. nov. differs from the phylogenetically close congener, L. alpina by dorsum without white tiny flecks (vs. distinct white tiny flecks present on dorsum in alpina, see Yang et al., 2018: Fig. 6C), absence of distinct dark brown spots/blotches on belly (present in alpina, see Yang et al., 2018: Fig. 6D) in life, tibiotarsal articulation reaches to middle of the eye (vs. reaches to anterior corner of the eye in alpina), narrow lateral fringes on toes (vs. wide in males in alpina), and indistinct dorsolateral markings (vs. distinct in alpina). L. wulingensis sp. nov. differs from the phylogenetically close congener, L. bourreti by having a relatively smaller body size (males SVL 24.5���32.8 mm vs. 28.0��� 36.2 mm in bourreti; females SVL 29.9���38.5 mm vs. 41.8��� 45.0 mm in bourreti), dermal ridges under toes distinct (vs. indistinct in bourreti), absence of dermal fringes on fingers (vs. present on Fingers II and III in bourreti), head longer than or as long as wide (vs. head wider than long in bourreti), indistinct dorsolateral markings (vs. distinct in bourreti), and indistinct supra-axillary glands in specimens reaching metamorphosis (see Fig. 6A) (vs. distinct in bourreti). L. wulingensis sp. nov. differs from the phylogenetically close congener, L. eos by having narrow lateral fringes on toes (vs. wide in eos), presence of black spots on flanks (vs. absent in eos), large warts present on dorsal surface (vs. absent in eos), orange dorsal surface of elbow and upper arms in life (vs. reddish-brown in eos), and ventral surface creamy white with distinct/indistinct brown speckling in life (vs. throat with orange/yellow spots, chest and belly pearly-orange in eos). L. wulingensis sp. nov. differs from the phylogenetically close congener, L. oshanensis by the presence of webbing and lateral fringes on toes (vs. absent in oshanensis), longitudinal ridges under toes interrupted at the articulations (vs. not interrupted in oshanensis), large warts present on dorsal surface (vs. absent in oshanensis), supratympanic line weak (vs. distinct and black in oshanensis), pectoral gland lager than femoral gland (vs. reversed condition in oshanensis), femoral gland closer to knee than to vent (vs. reversed condition in oshanensis), and indistinct dorsolateral markings (vs. distinct in oshanensis). L. wulingensis sp. nov. differs from the phylogenetically close congener, L. suiyangensis by having large warts present on dorsal surface (vs. absent in suiyangensis), brown/reddish brown above in life (vs. greyish brown in suiyangensis), supratympanic line weak (vs. deep and black in suiyangensis), indistinct dorsolateral markings (vs. distinct in suiyangensis), upper parts of iris bright orange/golden in life (vs. coppery in suiyangensis), and smaller tympanum (TMP/EYE ratio 0.32���0.52 vs. 0.42���1.06 in suiyangensis). L. wulingensis sp. nov. differs from the phylogenetically close congener, L. purpuraventra and L. bijie by having large warts present on dorsal surface (vs. absent in purpuraventra and bijie), supratympanic line weak (vs. distinct and black in purpuraventra and bijie), ventral surface creamy white with/without brown speckling in life (vs. grey purple with nebulous greyish speckling in purpuraventra and white with nebulous greyish speckling in bijie), longitudinal ridges under toes interrupted at the articulations (vs. not interrupted in purpuraventra and bijie), indistinct dorsolateral markings (vs. distinct in purpuraventra and bijie), and absence of tiny conical spines on surface of chest in males during breeding season (vs. present in purpuraventra and bijie). Compared with the members from the L. applebyi species group. L. wulingensis sp. nov. differs by having a creamy white chest and belly in life (vs. reddish brown or greyish violet in all members, except rowleyae), presence of webbing and lateral fringes on toes (vs. absent in ardens, kalonensis, maculosa, pallida, rowleyae and tadungensis), bicolored iris (vs. uniform in ardens and tadunensis), distinct ventrolateral glandular line (vs. indistinct or absent in macrops, pyrrhops, rowleyae, tadungensis and melica), dorsal skin texture shagreened with sparse large warts (vs. mostly smooth in applebyi, bidoupensis, kalonensis, maculosa and melica), supratympanic line weak (vs. distinct and black in ardens, kalonensis, maculosa and tadungensis), upper parts of iris bright orange/golden in life (vs. reddish or copper in bidoupensis, maculosa and pallida), and lower parts of iris silver in life (vs. gold, golden green, or silver green in macrops, maculosa, pallida, pyrrhops and rowleyae); and further differs from L. applebyi by having a larger body size (males SVL 24.5���32.8 mm vs. 19.6���20.8 mm in applebyi) and the presence of dermal fringes on toes (vs. absent in applebyi); from L. bidoupensis by having a larger body size (males SVL 24.5���32.8 mm vs. 23.6���24.6 mm in bidoupensis) and the presence of glandular warts on flanks (vs. absent in bidoupensis); from L. macrops by the presence of longitudinal ridges on dorsum (vs. absent in macrops) and lateral fringes on toes (vs. absent in macrops); from L. melica by the absence of dermal fringes on fingers (vs. present in melica) and the presence of lateral fringes on toes (vs. absent in melica). Compared with a congener occurring in Hunan province (L. mangshanensis), L. wulingensis sp. nov. differs by having narrow lateral fringes on toes (vs. weak in mangshanensis), distinct longitudinal ridges under toes interrupt- ed at the articulations (vs. longitudinal ridges indistinct and not interrupted at the articulations in mangshanensis), supratympanic line weak (vs. distinct and black in mangshanensis), tibiotarsal articulation reaches to middle of the eye (vs. reaches anterior margin of snout in mangshanensis), dorsal skin texture shagreened with sparse large warts (vs. mostly smooth in mangshanensis), and indistinct dorsolateral markings (vs. distinct in mangshanensis). Compared with three congeners recently described by Chen et al. (2020) from Yunnan Province, L. wulingensis sp. nov. differs from L. niveimontis by having a creamy white chest and belly (vs. marbled with distinct irregular black speckling on bluish-white background in niveimontis), orange supra-axillary glands (vs. white in niveimontis), orange dorsal surface of elbow and upper arms (vs. reddish-brown in niveimontis) in life, and longitudinal ridges under toes interrupted at the articulations (vs. not interrupted in niveimontis); from L. flaviglandulosa by having small white spines around cloacal region (vs. absent in flaviglandulosa), orange supra-axillary glands (vs. yellowish in flaviglandulosa), orange dorsal surface of elbow and upper arms (vs. yellowish in flaviglandulosa), greyish-pink ventral surface of throat and limbs (vs. dark brown in flaviglandulosa), and lacking yellow markings on dorsum in scapular region (vs. present in flaviglandulosa) in life; from L. feii by weak supratympanic line (vs. distinct and black in feii), absence of distinct black blotches scattered on chest and belly (vs. present in feii), longitudinal ridges under toes interrupted at the articulations (vs. not interrupted in feii), small to moderate black spots on flanks (vs. large blotches in feii), and absence of nuptial spines on the dorsal surfaces of first and second fingers (vs. presence in males in feii). For the other congeners known from China, L. wulingensis sp. nov. differs by having narrow lateral fringes on toes (vs. broad or wide in laui, liui, yingjiangensis and yunkaiensis; absent in nyx and ventripunctata), absence of lateral fringes on fingers (vs. present in laui and yingjiangensis), supratympanic line weak (vs. distinct and black in maoershanensis, shangsiensis, ventripunctata and wuhuangmontis), longitudinal ridges under toes interrupted at the articulations (vs. not interrupted in laui, maoershanensis, wuhuangmontis and yunkaiensis), indistinct dorsalateral markings (vs. distinct in liui, maoershanensis, pelodytoides, tengchongensis, ventripunctata, wuhuangmontis and yunkaiensis), absence of black spots or dark blotches on ventral surface (vs. present in maoershanensis, tengchongensis and ventripunctata), black spots on flanks small to moderate in size (vs. large in maoershanensis, pelodytoides and tengchongensis), distinct dermal ridges under toes (vs. indistinct in nyx and pelodytoides) and distinct ventrolateral glandular line (vs. indistinct in nyx and tengchongensis); and further differs from L. laui by the presence of longitudinal ridges on dorsum (vs. absent in laui); from L. liui by the absence of light dorsal markings in preservatives (vs. large, dark dorsal markings edged with light margins in liui, see Sung et al., 2014: Fig. 4B); from L. shangsiensis by having shagreened dorsal skin texture with sparse large warts (vs. smooth with numerous tiny tubercles in shangsiensis); from L. pelodytoides by having distinct dermal fringes under toes (vs. indistinct in pelodytoides); from L. tengchongensis by having bicolored iris (vs. uniform in tengchongensis); from L. ventripunctata by upper parts of iris bright orange/golden in life (vs. copper in ventripunctata) and lower parts of iris silver in life (vs. grey-brown in ventripunctata); from L. yingjiangensis by having orange supra-axillary glands in life (vs. brown in yingjiangensis) and the absence of white and dark brown mottling on ventral surface of thigh (vs. present in yingjiangensis); from L. yunkaiensis by having creamy white ventral surface (vs. pinkish in yunkaiensis) in life. For the other 18 congeners occurring north of the Isthmus of Kra, L. wulingensis sp. nov. differs by having indistinct dorsalateral markings (vs. distinct in botsfordi, fuliginosa, khasiorum, lateralis, minima, nahangensis, nokrekensis, pluvialis, puhoatensis, sungi, tamdil and zhangyapingi), presence of black spots on flanks (vs. absent in aerea, botsfordi, firthi and tuberosa), creamy white ventral surface (vs. reddish brown or bright orange in botsfordi, puhoatensis and, Published as part of Qian, Tian-Yu, Xia, Xin, Cao, Yue, Xiao, Neng-Wen & Yang, Dao-De, 2020, A new species of Leptobrachella (Anura: Megophryidae) Smith, 1925 from Wuling Mountains in Hunan Province, China, pp. 491-526 in Zootaxa 4816 (4) on pages 497-505, DOI: 10.11646/zootaxa.4816.4.4, http://zenodo.org/record/3954622, {"references":["Yang, J. H., Zeng, Z. C. & Wang, Y. Y. (2018) Description of two new sympatric species of the genus Leptolalax (Anura: Megophryidae) from western Yunnan of China. PeerJ, 6, e 4586. https: // doi. org / 10.7717 / peerj. 4586","Chen, J. M., Xu, K., Poyarkov, N. A., Wang, K., Yuan, Z. Y., Hou, M., Suwannapoom, C., Wang, J. & Che, J. (2020) How little is known about \" the little brown frogs \": description of three new species of the genus Leptobrachella (Anura: Megophryidae) from Yunnan Province, China. Zoological Research, 41 (3), 292 - 313. https: // doi. org / 10.24272 / j. issn. 2095 - 8137.2020.036","Sung, Y. H., Yang, J. H. & Wang, Y. Y. (2014) A new species of Leptolalax (Anura: Megophryidae) from southern China. Asian Herpetological Research, 5 (2), 80 - 90. https: // doi. org / 10.3724 / SP. J. 1245.2014.00080","Rowley, J. J. L., Hoang, D. H., Le, T. T. D., Dau, V. Q. & Cao, T. T. (2010 c) A new species of Leptolalax (Anura: Megophryidae) from Vietnam and further information on Leptolalax tuberosus. Zootaxa, 2660 (1), 33 - 45. https: // doi. org / 10.11646 / zootaxa. 2660.1.3","Mo, X., Shen, Y., L, Y. & Wu, X. (2010) A new species of Megophrys (Amphibia: Anura: Megophryidae) from the northwestern Hunan Province, China. Current Zoology, 56 (4), 432 - 436. https: // doi. org / 10.1093 / czoolo / 56.4.432"]}

Published
2020
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8. Construction of an indicator system for evaluating the protection efficacy of national nature reserves in China: A case study on terrestrial vertebrates (excluding migratory birds).

Author

YAN Yu-ying, YANG Dao-de, DENG Jiao, ZHANG Zhi-qiang, ZHOU Xian-yan, WANG Wei, and LI Jun-sheng

Abstract

The protection efficacy of nature reserves is a key element in achieving targets of biodiversity conservation. It is therefore very important to develop a scientific, systematic, and accurate index system for evaluating the protection efficacy of national nature reserves in China. Using methods of frequency statistics, expert consultation, analytic hierarchy process, and demonstration survey, we present a novel index system for evaluating the protection efficacy of Chinese national nature reserves for terrestrial vertebrates (excluding migratory birds) over a 10-year period. The indicator system included one target layer, two system layers, nine factor layers, and forty index layers. The system layer included ecological effectiveness evaluation ( with a score of 60%) and management effectiveness evaluation ( score of 40%). The ecological effectiveness evaluation was a comprehensive, dynamic evaluation of the target species, population, habitat, and ecological system. The management effectiveness evaluation was focused on the effectiveness of patrol and monitoring. The additional part aimed to analyze the impact of humans on the target species, population and nature resources of the nature reserve. This study combined the ecological effectiveness evaluation and the management effectiveness evaluation for the first time, highlighted the importance of time and space changes, distinguished the influence of natural factors from human factors, and integrated them into the evaluation results. By emphasizing quantifiable indicators, this evaluation index system could vastly assist the protection of nature reserves by improving management effectiveness, biodiversity conservation, and macroscopic decision-making. [ABSTRACT FROM AUTHOR]

Published
2015

10. [Potential geographical distribution of Rana hanluica in China under climate change].

Author

Xia X, Li Y, Yang DD, and Pi YY

Subjects
Animals, Biodiversity, China, Ranidae, Climate Change, Ecosystem
Abstract

Global warming in the last few decades had strong impacts on biodiversity and geographi-cal distribution of different animal species worldwide, especially amphibians. Rana hanluica , a frog species endemic in China, is still classified as Least Concerned in the Red List of Threatened Species because few studies have been conducted on this species. To understand the survival of Rana hanluica population, we used maximum entropy models (MaxEnt) to analyze its distribution across regions under current climatic conditions based on 47 distribution records and 20 environmental factors. We investigated the changes in distribution of this species under different climate scenarios in China (2050s and 2070s). Finally, current and future suitable habitats for R. hanluica were mode-led, and the impacts of environmental factors in shaping its distribution were evaluated. The results showed that the prediction accuracy of the MaxEnt model was high, and AUC value of the receiver operating curve was 0.993. The total suitable habitat area for R. hanluica was 36.36×10 4 km 2 , mainly located in Hunan and Guizhou provinces in China. The major environmental factors influencing the geographic distribution of R. hanluica were precipitation of dryest month and altitude. Under the future climate scenario (2050 and 2070) with two representative concentration pathways (RCPs, SSP1-2.5, SSP5-8.5), the suitable habitat of R. hanluica was reduced in different degrees, resulting in a decreasing trend of the total suitable habitat area. The center of gravity in highly suitable habitat of R. hanluica shifted to high-latitude regions, with the core distribution area in Hunan Province.

Published
2021
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11. [Effects of Germanium Concentrations on Germanium Accumulation and Biotransformation of Polysaccarified Germanium in Cordyceps militaris].

Author

Wang JF, Li HM, and Yang DD

Subjects
Biomass, Biotransformation, Cordyceps, Mycelium, Culture Media chemistry, Germanium metabolism
Abstract

Objective: To study the effects of Germanium (Ge) concentration on Ge accumulation and biotransformation of polysaccarified Ge (PG) in Cordyceps militaris., Methods: Solid and liquid culture were used in this study., Results: In the solid culture conditions, when the Ge concentration of medium was 200 mg/L, the sporophore biomass of Cordyceps militaris was the maximum; and when Ge concentration was 300 mg/L,the amount of biotransformation of PG in sporophore was the highest; and when the Ge concentration is 250 mg/L, conversion rate of organic germanium (OG) in sporophore reached the highest value. In the liquid culture conditions, when the Ge concentration was 250 mg/L, the mycelium biomass of Cordyceps militaris was the maximum; and when Ge concentration was 150 mg/L, the amount of organic conversion of PG in mycelium was the most; and conversion rate of OG in mycelium was the highest in media with the Ge concentration of 200 mg/L. This study showed the germanium concentrations in 150 - 300 mg/L was more suitable for Ge accumulation and biotransformation of PG in Cordyceps militaris. In general, the biotransformation capacity to germanium of sporophore was stronger than that of mycelium of Cordyceps militaris., Conclusion: Germanium can significantly affect Ge accumulation and biotransformation of PG in Cordyceps militaris (P < 0.05) at different concentration. This result has practical value for Ge enriched cultivation of fruiting body in Cordyceps militaris.

Published
2015

12. [Construction of an indicator system for evaluating the protection efficacy of national nature reserves in China: A case study on terrestrial vertebrates (excluding migratory birds)].

Author

Yan YY, Yang DD, Deng J, Zhang ZQ, Zhou XY, Wang W, and Li JS

Subjects
Animals, Biodiversity, China, Conservation of Natural Resources, Ecology methods, Ecosystem, Vertebrates
Abstract

The protection efficacy of nature reserves is a key element in achieving targets of biodiversity conservation. It is therefore very important to develop a scientific, systematic, and accurate index system for evaluating the protection efficacy of national nature reserves in China. Using methods of frequency statistics, expert consultation, analytic hierarchy process, and demonstration survey, we present a novel index system for evaluating the protection efficacy of Chinese national nature reserves for terrestrial vertebrates (excluding migratory birds) over a 10-year period. The indicator system included one target layer, two system layers, nine factor layers, and forty index layers. The system layer included ecological effectiveness evaluation (with a score of 60%) and management effectiveness evaluation (score of 40%). The ecological effectiveness evaluation was a comprehensive, dynamic evaluation of the target species, population, habitat, and ecological system. The management effectiveness evaluation was focused on the effectiveness of patrol and monitoring. The additional part aimed to analyze the impact of humans on the target species, population and nature resources of the nature reserve. This study combined the ecological effectiveness evaluation and the management effectiveness evaluation for the first time, highlighted the importance of time and space changes, distinguished the influence of natural factors from human factors, and integrated them into the evaluation results. By emphasizing quantifiable indicators, this evaluation index system could vastly assist the protection of nature reserves by improving management effectiveness, biodiversity conservation, and macroscopic decision-making.

Published
2015

13. [Study on monosaccharide composition of intracellular polysacchride and contents of cordycepin and cordyceps polysacchride produced by Cordyceps militaris induced by blue light].

Author

Wang JF, Yang DD, Li HM, and Han WJ

Subjects
Extracellular Space chemistry, Light, Mycelium, Cordyceps chemistry, Deoxyadenosines chemistry, Monosaccharides chemistry, Polysaccharides chemistry
Abstract

Objective: To study effects of blue light irradiation on monosaccharide composition of intracellular polysacchride and contents of cordycepin and cordyceps polysacchride of mycelium and sporocarp in Cordyceps militaris., Methods: The monosaccharide composition of intracellular polysacchride of mycelium and sporocarp in Cordyceps militaris as materials were determined by gas chromatography after 144 h blue light irradiation. The contents of cordycepin and cordyceps polysacchride of mycelium and sporocarp in Cordyceps militaris were detected at different blue light irradiation periods. At the same time, the growth of mycelium and sporocarp in Cordyceps militaris were observed during blue light irradiation., Results: Mycelium polysaccharide in Cordyceps militaris was a kind of heteropolysaccharide containing four kinds of monosaccharide and fruiting body polysaccharide was a kind of heteropolysaccharide containing five kinds of monosaccharide. Whether blue light irradiation or dark culture, the content changes of cordyceps polysacchride in two groups showed similar patterns in the test of mycelium polysaccharides. The content changes of cordyceps polysacchride in two groups were basically the same in the detection of sporocarp polysacchride. Cordycepin content in the two set of experiments of blue light irradiation all showed a clear upward trend in the detection of mycelium and sporocarp in Cordyceps militaris., Conclusion: The blue light irradiation has certain effect on the species and quantity of monosaccharide in intracellular polysaccharide. The content increase of cordycepin and cordyceps polysacchride in Cordyceps militaris are promoted by blue light irradiation. Blue light can help the morphogenesis and promote the differentiation and growth of sporocarp in Cordyceps militaris. This study is the first report about the effect of blue light on the type and quantity of the monosaccharide composition in polysaccharide of Cordyceps militaris, which will lay the foundation for further study on the metabolism of active substance in Cordyceps militaris by blue light irradiation.

Published
2014

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