古田山国家级自然保护区白颈长尾雉的分布格局及其季节变化
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摘要
为了解浙江省古田山国家级自然保护区内白颈长尾雉(Syrmaticus ellioti)的分布格局和季节变化, 2014年5月至2016年4月,我们对其进行了为期2年的网格化监测。共有44个公里网格拍摄到白颈长尾雉,独立探测数量为211次,雌雄性比为1:1.64。白颈长尾雉主要分布在实验区和缓冲区,其探测率在常绿落叶阔叶混交林、杉木(Cunninghamialanceolata)林、针阔叶混交林、人工油茶(Camelliaoleifera)林和常绿阔叶林中依次递减,主要分布在海拔600–800 m。冬、春两季,白颈长尾雉活动强度和区域相对较小,而夏、秋两季活动强度和区域相对增加,其分布在海拔段(F_(4,12)=3.76, P <0.05)和季节间(F_(3,12)=3.34, P <0.05)都存在显著差异。对海拔和气候因子进行回归分析发现,日平均气温和海拔对白颈长尾雉是否出现均有极显著影响(P <0.01);白颈长尾雉月探测率和探测到白颈长尾雉位点的海拔均与月平均气温呈极显著正相关(P <0.001),而与月平均降水量无显著线性关系(P> 0.05)。这表明白颈长尾雉的活动在很大程度上受海拔和气温影响,随月平均气温的升高有向高海拔迁移的趋势。模型选择和多模型推断显示,最优模型仅保留"100 m内水源"这一个变量,次优模型是"100 m内水源×海拔",最优和次优模型的权重分别为0.18和0.14,"100m内水源"和"海拔"是影响白颈长尾雉在保护区内分布的重要因子,重要值分别为0.82和0.51。因此,白颈长尾雉的分布并非仅由某一个或几个环境变量决定,而是由多个环境变量共同决定。气温的变化和对不同海拔段的选择是导致白颈长尾雉形成不同季节分布格局的原因。
Here we studied the seasonal variation in the distribution pattern of Elliot's pheasant(Syrmaticus ellioti) in Gutianshan National Nature Reserve, in Zhejiang Province, China. From May 2014 to April 2016,Elliot's pheasants were monitored with camera traps as part of the grid monitoring system. Elliot's pheasants were detected in 44 1 km × 1 km survey blocks, 211 independent times. The observed sex ratio was F : M =1 : 1.64. These results showed that Elliot's pheasant is mainly distributed in the buffer and experimental zones. Within the reserve, the detection rate of Elliot's pheasant decreased over the gradient from mixed evergreen and deciduous broad leaf forest, Cunninghamia lanceolata forest, mixed coniferous and broad leaf forest to artificial Camellia oleifera forest and evergreen broad leaf forest. Elliot's pheasant mainly lived at altitudes of 600–800 m. In winter and spring, their activity intensity was lower and the active area of Elliot's pheasant was relatively smaller compared with the summer and autumn. In short, the distribution between altitudinal intervals(F_(4,12)= 3.76, P < 0.05) and seasons(F_(3,12)= 3.34, P < 0.05) differed significantly.Performing a regression analysis on altitudinal intervals and climatic factors showed that the daily average temperature and altitudinal intervals both significantly influenced the presence of Elliot's pheasant(P <0.01). Both the monthly detection rate of Elliot's pheasant and the altitude at which Elliot's pheasant was detected had a significant positive correlation with the monthly mean temperature(P < 0.001), but had no significant linear relationship with the monthly mean rainfall(P > 0.05). These results showed that the presence of Elliot's pheasant was largely influenced by altitude and temperature. Elliot's pheasants tended to move to higher altitude as the average monthly temperature increased. According to the results of model selection and multimodel inference, the optimal model only included by the variable "source of water within 100 meters", and the suboptimal model was "source of water within 100 meters × altitude", with weights of 0.18 and 0.14. This means that "source of water within 100 meters" and "altitude" were important factors affecting the distribution of Elliot's pheasant, whose importance values were 0.82 and 0.51, respectively.Overall, the distribution of Elliot's pheasant was determined by various environmental variables, rather than one and/or several environmental variables. In addition, the changes in temperature and the range of altitudinal intervals led to the differing seasonal distribution pattern of Elliot's pheasant.
Here we studied the seasonal variation in the distribution pattern of Elliot's pheasant(Syrmaticus ellioti) in Gutianshan National Nature Reserve, in Zhejiang Province, China. From May 2014 to April 2016,Elliot's pheasants were monitored with camera traps as part of the grid monitoring system. Elliot's pheasants were detected in 44 1 km × 1 km survey blocks, 211 independent times. The observed sex ratio was F : M =1 : 1.64. These results showed that Elliot's pheasant is mainly distributed in the buffer and experimental zones. Within the reserve, the detection rate of Elliot's pheasant decreased over the gradient from mixed evergreen and deciduous broad leaf forest, Cunninghamia lanceolata forest, mixed coniferous and broad leaf forest to artificial Camellia oleifera forest and evergreen broad leaf forest. Elliot's pheasant mainly lived at altitudes of 600–800 m. In winter and spring, their activity intensity was lower and the active area of Elliot's pheasant was relatively smaller compared with the summer and autumn. In short, the distribution between altitudinal intervals(F_(4,12)= 3.76, P < 0.05) and seasons(F_(3,12)= 3.34, P < 0.05) differed significantly.Performing a regression analysis on altitudinal intervals and climatic factors showed that the daily average temperature and altitudinal intervals both significantly influenced the presence of Elliot's pheasant(P <0.01). Both the monthly detection rate of Elliot's pheasant and the altitude at which Elliot's pheasant was detected had a significant positive correlation with the monthly mean temperature(P < 0.001), but had no significant linear relationship with the monthly mean rainfall(P > 0.05). These results showed that the presence of Elliot's pheasant was largely influenced by altitude and temperature. Elliot's pheasants tended to move to higher altitude as the average monthly temperature increased. According to the results of model selection and multimodel inference, the optimal model only included by the variable "source of water within 100 meters", and the suboptimal model was "source of water within 100 meters × altitude", with weights of 0.18 and 0.14. This means that "source of water within 100 meters" and "altitude" were important factors affecting the distribution of Elliot's pheasant, whose importance values were 0.82 and 0.51, respectively.Overall, the distribution of Elliot's pheasant was determined by various environmental variables, rather than one and/or several environmental variables. In addition, the changes in temperature and the range of altitudinal intervals led to the differing seasonal distribution pattern of Elliot's pheasant.
引文
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Chen SW,Yu JP,Chen XN,Shen XL,Li S,Ma KP(2016)Camera-trapping survey on the diversity of mammal and pheasant species in Gutianshan National Nature Reserve,Zhejiang Province.Acta Theriologica Sinica,36,292-301.(in Chinese with English abstract)[陈声文,余建平,陈小南,申小莉,李晟,马克平(2016)利用红外相机网络调查古田山自然保护区的兽类及雉类多样性.兽类学报,36,292-301.]
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Ding P,Li Z,Jiang SR,Zhuge Y(2002a)Studies on the factors affecting patch use degree by Elliot’s pheasant.Journal of Zhejiang University(Science Edition),29,103-108.(in Chinese with English abstract)[丁平,李智,姜仕仁,诸葛阳(2002a)白颈长尾雉栖息地小区利用度影响因子研究.浙江大学学报(理学版),29,103-108.]
Ding P,Yang YW,Li Z,Jiang SR,Zhuge Y(2001)Vegetation characteristics of habitats used by Elliot’s pheasant.Journal of Zhejiang University(Science Edition),28,557-562.(in Chinese with English abstract)[丁平,杨月伟,李智,姜仕仁,诸葛阳(2001)白颈长尾雉栖息地的植被特征研究.浙江大学学报(理学版),28,557-562.]
Ding P,Yang YW,Li Z,Jiang SR,Zhuge Y(2002b)Studies on the selection of roosting sites of Elliot’s pheasant.Journal of Zhejiang University(Science Edition),29,564-568.(in Chinese with English abstract)[丁平,杨月伟,李智,姜仕仁,诸葛阳(2002b)白颈长尾雉夜宿地选择研究.浙江大学学报(理学版),29,564-568.]
Ding P,Zhuge Y(1988)The study on breeding ecology of Syrmaticus ellioti Swinhoe.Acta Ecologica Sinica,8,44-50.(in Chinese with English abstract)[丁平,诸葛阳(1988)白颈长尾雉(Syrmaticus ellioti Swinhoe)的生态研究.生态学报,8,44-50.]
Ding P,Zhuge Y(1989a)Syrmaticus ellioti.Chinese Journal of Zoology,24(2),39-42.(in Chinese)[丁平,诸葛阳(1989a)白颈长尾雉.动物学杂志,24(2),39-42.]
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