Changes in Tree Frog (<i>Hyla savignyi</i>) Coloration in Unstable Habitats at the Southern Border of Its Distribution

This study examined the relationship between tree frog (Hyla savignyi) coloring and its different seasonal habitats at the southern border of its distribution. The results show that tree frog color is affected by the dominant colors in its habitat, which vary seasonally, especially between winter and summer. Tree frog colors were various shades of green, white, brown, and black. No genetic marker was found to characterize the color. The ability of a small frog to infer its own time with the help of color changes occurring in the habitat on the southern border of its distribution, which are relatively broad, gives this species an advantage.

Inspired by Tree Frog:Bionic Design of Tread Pattern and Its Wet Friction Properties

The wet grip of tire has always been the focus because it is related to the personal safety of passengers directly.Many methods were employed to improve the wet grip of tire.Researchers paid more attention on bionics method recent years.In nature,tree frogs have high adhesion ability in wet environment,which is mainly due to their footpads having fine polygon grooves(mainly hexagon grooves).To improve the performance of wet grip of tire,from the perspective of bionics,inspired by the footpad of tree frog,the bionic hexagon tread pattern was designed.The friction test was carried out to compare with the common tread patterns such as serrated,striped and square patterns.The results showed that the bionic hexagon tread pattern generally had high friction coefficient and directional stability of friction.The main reason was that the hexagon tread block was less affected by the friction-induced torque and the groove of bionic hexagon tread pattern had better drainage characteristic.The bionic hexagon tread pattern provides new idea and method for the design of tires with high wet grip.

大树蛙与斑腿树蛙的繁殖与驯养

1 997～ 2 0 0 0年 ,在广州动物园生态蛙蟾馆观察与研究了笼养条件下大树蛙和斑腿树蛙的繁殖行为和驯养过程 ,比较了两种树蛙繁殖生态的差别。

海南吊罗山3种稀有两栖爬行动物

2005年7月至2006年5月在吊罗山保护区开展野外调查时,发现3种稀有两栖爬行动物:黑耳蛙(Rana nigrotympanica Dubois、大泛树蛙(Polypedates dennysi Blanford)和脆蛇蜥(Ophisaurus harti Boulenger)。确定黑耳蛙在海南的分布,补充记载了3种动物的基本生态资料。经详细比较,认为根据吊罗山1号标本命名的新种海南蛇蜥(Ophi-saurus hainanensis Yang)应是脆蛇蜥的同物异名。建议今后发表新种至少依据2号以上标本,并应与已知相近种的标本加以比较。

基于斯坦纳树的雷场网络大面积损坏修复策略

战场环境下预先设定的智能雷场网络易受到敌方攻击而导致大面积损坏,雷场网络被分割成数个互不相连的部分从而丧失了通讯功能。通过将问题映射到斯坦纳最小树问题,提出了一种新颖的雷场网络修复策略。首先采用雷场区域网格模型限制算法的搜索空间,随后引入蛙跳和离散量子粒子群混合优化(JF-QDPSO)算法确定中续节点位置,修复受损网络。仿真实验表明该策略能够有效的恢复网络拓扑结构,算法计算较快,与其它算法相比,重建后的网络通信能耗小,网络生存周期长。

重型拖拉机湿式离合器摩擦片耐磨仿生设计与试验

重型拖拉机湿式离合器作为动力换挡变速箱的重要执行部件,其摩擦副的磨损失效是导致传动系统整体性能下降的主要原因之一,为减少因其带来的资源和经济损失,进而设计一种耐磨离合器摩擦片。该文从仿生学角度出发,以大树蛙为对象,用扫描电镜观测其趾端,发现树蛙趾端微观结构轮廓形状有四边形、五边形、六边形,六边形结构居多且结构大小均匀其直径约为12μm,微结构的轮廓间为沟槽,沟槽宽度约为1.5μm。研究表明树蛙体表分泌的黏液在围绕着六边形结构的沟槽内循环流动,增强其在潮湿环境下的粘附力,即摩擦系数。树蛙在与湿滑基底接触时表现出很强的黏附力和摩擦力,仿生摩擦片具备这些特点更能满足传递运动和转矩的要求。通过提取树蛙趾端参数,优化摩擦片表面结构,将树蛙趾端的致密六边形沟槽分割结构进一步突出特点、简化结构,对重型拖拉机湿式离合器摩擦片表面的油槽结构进行相似设计,以此为设计思路设计了9种仿生试样并采用激光加工技术制作样件。采用微观摩擦磨损测试仪进行摩擦磨损试验,通过计算摩擦系数对比不同六边形直径与不同沟槽宽度下摩擦摩损效果上的差异。试验结果表明,仿生非光滑结构比光滑结构具有更好的耐磨性特性,且正六边形直径为12 mm,沟槽宽度为1.5 mm时,磨损量最低,摩擦系数相对较高,这因为六边形直径与沟槽宽度综合作用,能够最大限度地降低磨损,提高摩擦片的工作能力和使用寿命。这说明合理地设计摩擦片表面结构,不仅能够满足动力传递的要求,同时可以降低磨损,节省材料,进而达到了改善离合器耐磨性能的要求。

“林-蛙-鱼”生态农业模式研究

对杨树+虎纹蛙+罗非鱼("林-蛙-鱼")生态农业模式进行了3年的研究。结果表明,"林-蛙-鱼"立体种养生态农业模式经济效益明显,250 m2种养池当年可产生经济效益4 800元左右。"林-蛙-鱼"立体种养生态农业模式也取得了良好的生态效益和社会效益,表现在改善生态环境、维护生物多样性、带动农民发展生产、教育青少年等方面,实现了生态效益、经济效益和社会效益的同步发展。

The Influence of Environmental Factors on the Behavior and Mortality Risk of Polypedates megacephalus Tadpoles

Since tadpoles change their behavior when facing adverse environmental conditions, observing tadpoles in a tank can help detect problems in their ma intena nce. Detecting such a bnormal behavior early, an amphibian breeder can react quickly, by changing the conditions. If quick and appropriate, such a reaction can save unnecessary deaths. The paper presents an experimental study on the behavior of tadpoles of Polypedates megacephalus in various adverse environmental conditions. In addition to a control 25-liter tank, 5-liter tanks with 10 tadpoles each were studied, each having various improper conditions. Observations included the degree of tank exploration by the tadpoles, their mortality, anomalies in swimming behavior, and eating behavior.

动物接触力测试系统的研制与应用

研究爬壁动物在爬壁运动时其足掌与接触面间的接触力学规律及其运动步态,可为爬壁机器的设计与控制提供重要启示。研制的动物接触力测试系统由三维力传感器、信号调理模块、数据采集与处理模块、动态图像的记录与分析等组成,可用于树蛙、壁虎等在不同表面状况下的足掌与接触面之间的接触力学测试。利用该系统进行了树蛙垂直表面爬行时的力学测试,分析了三维接触力在树蛙运动过程中的变化规律。

Resurrection of the Genus Leptomantis, with Description of a New Genus to the Family Rhacophoridae(Amphibia:Anura)

Genus Rhacophorus Kuhl and Van Hasselt, 1 822 is one of the most diverse genera of the family Rhacophoridae, and its taxonomy of genus Rhacophorus faces major challenges because of rapidly described new species and complex interspecies relations. In this study, we investigate the generic taxonomy within the genus Rhacophorus based on 1 972 bp of mitochondrial genes(12S rRNA, tRNA-val and 16S rRNA), containing 102 sequences from 58 species. The results reveal three well-supported and highly diverged matrilines that correspond with morphological characteristics and geographic distribution. Accordingly, we consider these three lineages as distinct genera: Rhacophorus sensu stricto, resurrected genus Leptomantis Peters, 1867, and the genus Zhangixalus gen. nov.

软衬硅橡胶表面仿树蛙足垫微阵列结构对吸附力影响的体外研究

目的制作表面含有不同尺寸仿树蛙足垫微结构的软衬硅橡胶样片,评价其在模拟口腔环境中的吸附力差异,筛选出仿树蛙足垫微结构的最优参数。方法设计4种不同尺寸(六棱柱边长×高度×六棱柱间距:A组100μm×75μm×33μm,B组100μm×75μm×60μm,C组40μm×75μm×75μm,D组40μm×75μm×50μm)的仿树蛙足垫微结构,3D打印出带有反结构的阴模,软衬硅橡胶翻模,得到表面带有仿生微结构的样片。扫描电镜观察4组样片的表面形态,并用电子万能材料试验机在模拟口腔环境中进行吸附力测试。表面光滑的平面样片作为对照组E。结果4个实验组的吸附力分别为A组(0.32±0.02)N、B组(0.28±0.02)N、C组(0.19±0.02)N、D组(0.27±0.02)N,与对照组E的(0.17±0.02)N相比,差异均有统计学意义(P<0.05),B、D组间吸附力差异没有统计学意义(P>0.05),其余任意两组间的吸附力差异均有统计学意义(P<0.05)。其中,A组吸附力最好。结论在软衬硅橡胶材料表面制作仿树蛙足垫微结构可以提高其吸附力,这为改善全口义齿固位力提供了一种新思路,但其临床应用仍待进一步研究。

基于AIRF-CARS波段选择算法的橡胶树叶片氮含量定量研究

以橡胶树叶片的近红外光谱信息为分析对象,运用由粗放到细致的多分辨率特征提取思想,提出了一种融合自适应间隔随机蛙与竞争自适应重加权采样(AIRF-CARS)的算法提取橡胶树叶片的光谱特征信息,从而实现了橡胶树叶片氮含量的定量分析.实验结果表明,AIRF-CARS算法有效的压缩了光谱特征的数量,通过算法选择的特征波长为22个,使得定量分析模型的预测均方根误差(RMSEP)和决定系数(R2)分别为0.1364%和0.9596.因此,本文算法可以有效地提取信息量较大的波长特征,应用于近红外光谱检测的定量分析中,并为便携式田间多波段光谱仪的研发提供理论支撑.

基于进化计算的卡通人物造型设计方法

提出一种基于进化计算的卡通人物造型设计方法。采用二叉树编码结构的遗传算法,对非均匀缩放表达式进行交叉、变异等操作。利用进化后的非均匀缩放表达式对原有卡通人物部件进行变形,产生不同的造型部件。将部件进行编码,存入部件库,执行改进的蛙跳算法,产生各种不同的组合方案,得到不同的卡通人物造型。实验结果证明了该设计方法的有效性。

应用间隔随机蛙结合连续投影算法检测橡胶树叶片氮含量

研究了基于可见/近红外光谱技术的橡胶树叶片氮含量无损检测方法。总共采集了176个橡胶树叶片样本,以350~2 500 nm的可见/近红外数据作为试验数据。首先,采用一种新颖的间隔随机蛙(iRF)算法选择交互验证均方根误差(RMSECV)最小的波长间隔组合;然后,采用连续投影算法(SPA)进一步选择特征波长;最后,将选出的特征波长作为输入变量,建立偏最小二乘法(PLS)模型。研究结果表明:通过两步策略进行波长选择,iRF算法粗选,从全光谱2 151个变量中筛选出714个,再采用SPA算法细选,从714个变量中进一步筛选出20个最优变量,降低了信息冗余,变量数减少了99.07%。建立的简化模型结果校正均方根误差(RMSEC)、校正相关系数(Rc)、预测均方根误差(RMSEP)、预测相关系数(Rp)分别为0.091 3%、0.956 5、0.123 8%和0.901 8,比PLS、间隔偏最小二乘法(iPLS)、iRF算法和SPA有更低的均方根误差和更高的相关系数。因此,iRF-SPA可以作为一种策略的波长选择方法用于检测橡胶树叶片氮含量。

仿树蛙足垫粘性材料制备及其粘附性能

利用MEMS加工技术制备了表面具有柔性阵列结构的仿生粘性材料,并选取钛板、铝板、有机玻璃板为接触表面进行了粘附性能测试。实测结果表明:材料表面微观结构、材料自身性能、接触表面形貌对材料的粘附性能均有影响,粘性材料在钛板表面的法向粘附强度可达5.93×10-2N/mm2。

一种基于蛙跳算法的配电网孤岛划分

随着分布式电源(DG)在配电网中渗透率越来越高,DG的孤岛运行模式为传统的故障恢复提供了新的方法和思路。将孤岛划分和形成转换成一个树背包问题(TKP)来分析求解。首先对原始网络进行分析处理,并建立含单个DG的树背包优化模型,运用改进的蛙跳算法求解得出初级孤岛;然后对初级孤岛进行一定的调整使得恢复价值最大;最后校验各负荷节点的电压和潮流约束,确定最优孤岛,并对系统进行可靠性分析。改进的69节点算例验证了该算法的优越性和有效性,具有一定的理论参考价值和实际意义。

基于树蛙脚掌湿黏附的仿生手术夹钳表面研究

手术夹钳是外科手术中常用的夹持器具,传统的手术夹钳主要通过齿形结构使湿滑的软体器官变形产生机械互锁来提高夹持稳定性,这往往会带来严重的组织损伤。为了降低夹钳夹持损伤,需要发展以强湿黏附增摩来取代强夹持增摩的技术,实现湿环境下“松夹而不滑脱”功能。树蛙经过千万年的进化,其脚掌形成了优异的湿摩擦功能。通过表征发现树蛙脚掌表面结构多为密排六棱柱。且随着界面间液量减少,树蛙脚垫由湿变干过程中液膜会出现碎化分散,摩擦力出现近百倍增大的现象,即称为边界强摩擦状态。通过对仿生表面的测试发现,液膜的碎化现象由其特殊的密排棱柱结构所决定,液膜碎化会使液膜更为均匀铺展,产生极强表面张力,从而能够在无任何外界压力的情况下仍能产生极高的摩擦力,有助于达到手术夹钳“松夹而不滑脱”的效果。此外,棱柱结构的各向异性与沟槽的方向性分布使得摩擦力表现出各向异性,鲜猪肝夹持测试发现,与传统齿形夹钳相比仿生六棱柱表面具有更优异的摩擦性能,更适合于仿生手术夹钳表面。基于树蛙脚垫强摩擦机制,提出了仿生手术夹钳设计制造方法,并验证了其降低组织损伤的有效性。

不同病原菌致胸部CT表现之“树芽征”9例分析

＂树芽征＂（tree-in-bud,TIB）是胸部CT上的重要征象。TIB最初用来描述结核分枝杆菌沿气道内播散的影像学表现。然而其缺乏特异性,多种导致细支气管受累的感染和非感染性疾病均可有TIB的表现。＂树雾征＂（tree frog sign）是与TIB类似的胸部CT征象,以支气管周围间质炎症渗出性改变为主。

基于树蛙脚掌的仿生六棱柱表面边界摩擦研究

湿润环境下软材料的摩擦受固液气多介质作用,一直都是摩擦理论的难点.师法自然,我们从自然界获取灵感,由树蛙脚掌能在湿环境中产生极强的摩擦力,来研究软材料在湿环境中的摩擦特性.本文表征了树蛙脚掌的结构和摩擦力,发现在边界摩擦状态下,界面间极薄的液膜有助于增大摩擦力.在树蛙脚掌湿摩擦力的启发下,设计制造出了一种仿生六棱柱增摩表面.通过对摩擦力表征发现,其边界摩擦能达到干摩擦的50倍.与光滑表面相比,仿生六棱柱表面能够产生稳定且持久的边界摩擦力,六棱柱表面亲水比疏水也有着更优异的边界摩擦性能.该研究结论有助于人们进一步认识软材料的湿摩擦机理,可以进一步帮助设计制造更强的湿吸附仿生表面.

An Optimal Wet Friction Plate Inspired by Biological Surface Patterns

It is found that many biological organisms exhibit superior adhesion characteristics in wet environments. It has been observed that the foot pads of tree frogs and katydids are consist of a number of closely arranged polygons, most of them are hexagonal. In this paper, the common structure of two kinds of biological foot pad was extracted to model the bionic surface structure of friction plates. The friction plate prototypes were also prepared. Through the multivariate orthogonal regression design, the optimum parameter combination of the friction performances of the prototypes of the bionic plates has been obtained. The hexagonal circumcircle size is 10 mm, the groove width is 1 mm, and the hexagonal diagonal angle is 90~. Then the maximum static friction coefficient, dynamic friction coefficient and wear amount of the optimal friction plate were tested and compared with the control group friction plates. The comparative analysis of the experiment findings demonstrated that the bionic structure with hexagonal ring grooves can significantly improve the friction performance of the friction plates.