2009年7月29日 星期三

東南亞刺蛾科昆蟲之分類學記要以及1新屬與11新種之描述

文獻來源: Solovyev AV. 2009. Notes on South-East Asian Limacodidae (Lepidoptera, Zygaenoidea) with one new genus and eleven new species. Tijdschirft voor Entomologie 152: 167-173.

Eleven new species of Limacodidae from South-East Asia are described here as new: Barisania honeyi sp. n. from central Myanmar, northern and central Vietnam and central Thailand, Pseudaltha eboris sp. n., from northern Thailand, P. sapa sp. n., from northern Vietnam and northern Thailand, Austrapoda seres sp. n. from China (Chekiang and Shaanxi), Euphlyctinides indi sp. n. from India, E. aeneola sp. n. from northern and western Thailand, Pseudonagoda siniaevi sp. n. from southern Andaman, Atosioides accola sp. n. from western Sumatra and southern Thailand, Pseudidonauton siamica sp. n. from northern Thailand and central Vietnam, P. chihpyh sp. n. from Taiwan and P. vexa sp. n. from central Vietnam and southeastern Thailand. The genus Atosioides Solovyev is erected here with type-species Atosia rochei Holloway, 1986. Brief morphological reviews of all examined genera are given. All diagnostic features are illustrated.

本文描述台灣產刺蛾之一新種, Pseudidonauton chihpyh Solovyev, 2009 (知本細刺蛾), 正模式標本採自南投惠蓀林場(存放於幕尼黑的Thomas Witt Colletion), 而副模標本則採自台東知本溫泉(存放地點同正模) (註: 個人很不喜歡外國人描述台灣物種的時候亂拼音, 他明明知道知本的拼音是Chihpen, 但又在發表時拼成chihpyh (知屁?), 這是怎樣呢?)

2009年7月28日 星期二

授粉昆蟲是否比植食昆蟲具有更廣的食性選擇?

photo by Bettaman
Are insect pollinators more generalist than insect herbivores?
1. Colin Fontaine1,*, 2. Elisa Thebault1 and 3. Isabelle Dajoz2

Author for correspondence (c.fontaine@imperial.ac.uk).

近年來的生物群聚層次的研究已經領會到廣食性物種遠比過去所認知的還要多,而這些研究成果也突顯了這些廣食性生物在群聚功能與演化中的優勢影響力。取食與互利共生這類的交互作用被認為應該會影響物種的廣食性程度,然而目前並沒有進行直接的比較,作者在此研究中以44個植物與昆蟲間取食或傳粉的網狀關係進行比較。分析顯示交互作用的類型確實會對物種的廣食性各種面向產生影響,從群聚中廣食性的分布到與昆蟲物種有交互作用的植物親緣關係上的多樣性。然而,觀察到的改變範圍視所研究物種廣食性而定。當非量化與量化的測量暗示傳粉者與較多種植物互動且互動關係比食植者更均勻,親緣關係上的測量清楚的顯示食植者和植物物種之間的互動遠比傳粉者與植物更加緊密。此比較方法藉由指出屬於各交互作用類型的群聚所擁有的一些基本特點,為更了解多物種集合的功能與演化提供一個有希望的觀點。

Abstract

Recent community-level studies have acknowledged that generalist species are more widespread than previously thought and highlighted their preponderant impact on community functioning and evolution. It is suggested that the type of interaction, trophic versus mutualistic, should affect species generalization level; however, no direct comparison has been made yet. Here, we performed such a comparison using 44 plant–insect networks describing either pollination or herbivory communities. Our analysis shows that the type of interaction does indeed have an impact on various aspects of species generalism, from the distribution of generalism in the community to the phylogenetic diversity of the plants with which a given insect species interacts. However, the amplitude of the observed differences depends on the aspect of species generalism studied. While the non-quantitative and quantitative measures of generalism suggest that pollinators interact with more plant species and more evenly than herbivores, phylogenetic measures clearly show that herbivores interact with plant species far more closely related to each other than pollinators. This comparative approach offers a promising perspective to better understand the functioning and evolution of multispecies assemblages by pointing out some fundamental singularities of communities depending on the type of interaction considered.

2009年7月4日 星期六

翅膀順從之空氣動力學與功能的重要性

Aerodynamic and functional consequences of wing compliance
Experiments in Fluids
Volume 46, Number 5 / 2009年5月

Andrew M. Mountcastle1 Contact Information and Thomas L. Daniel1 Contact Information

愈來愈多證據指出大多數的昆蟲在飛行時會經歷某程度上的翅膀變形。由於翅膀基部不具肌肉末梢,昆蟲翅膀的瞬間形狀是由翅膀的週期性加速形成的空氣動力伴隨著慣性與彈力所造成。由於伴隨著快速往復拍擊翅膀而來的慣性力量負擔- 乘載高過平均空氣動力,翅的被動形變是許多昆蟲拍翅飛行不可避免的現象。雖然翅的順服涉及一些加強抬昇的機制(如:適合的弧度),然而翅膀變形在直接的空氣動力上的結果仍未被解答。在本文中,作者針對菸草天蛾(Manduca sexta)翅膀的順服如何影響整體產生的氣流呈現新的研究資料。真正的蛾翅被置於自動裝置以其主要的旋轉平面及自然狀況下的振翅頻率25 Hz拍擊翅膀。作者使用數位質點影像測速儀的超高頻率解析以評估在此平均對流程度下之翅膀順服,憑藉翅膀僵硬程度在自然狀況下的變化以修改翅突然變形的程度(新鮮的翅較有彈性且比脫水的翅表現出較好的順服度)。作者發現有彈性的翅產生明顯強度較大的平均對流程度,且方向較乾硬的翅膀有利於抬昇。作者指出其結果確認翅膀的順服在飛行力量上瓣演著關鍵的角色。

Abstract
A growing body of evidence indicates that a majority of insects experience some degree of wing deformation during flight. With no musculature distal to the wing base, the instantaneous shape of an insect wing is dictated by the interaction of aerodynamic forces with the inertial and elastic forces that arise from periodic accelerations of the wing. Passive wing deformation is an unavoidable feature of flapping flight for many insects due to the inertial loads that accompany rapid stroke reversals—loads that well exceed the mean aerodynamic force. Although wing compliance has been implicated in a few lift-enhancing mechanisms (e.g., favorable camber), the direct aerodynamic consequences of wing deformation remain generally unresolved. In this paper, we present new experimental data on how wing compliance may affect the overall induced flow in the hawkmoth,
Manduca sexta. Real moth wings were subjected to robotic actuation in their dominant plane of rotation at a natural wing beat frequency of 25 Hz. We used digital particle image velocimetry at exceptionally high temporal resolution (2,100 fps) to assess the influence of wing compliance on the mean advective flows, relying on a natural variation in wing stiffness to alter the amount of emergent deformation (freshly extracted wings are flexible and exhibit greater compliance than those that are desiccated). We find that flexible wings yield mean advective flows with substantially greater magnitudes and orientations more beneficial to lift than those of stiff wings. Our results confirm that wing compliance plays a critical role in the production of flight forces.

2009年7月2日 星期四

雄蛾會對親戚減少精子的投資

photo by Patrick C..
Male moths reduce sperm investment in relatives

Zenobia Lewis1, a and Nina WedellCorresponding Author Contact Information, a, E-mail The Corresponding Author

aSchool of Biosciences, University of Exeter, Cornwall Campus, U.K.

Animal Behaviour
Volume 77, Issue 6
, June 2009, Pages 1547-1550

產生精子需付出代價、而雄性經常藉由調整射精以最大化他們的生殖成功率。先前研究顯示雄性對於雌性品質的變異是敏感的,為了精子競爭的風險與活力,雄性會依據情形調節其射精量。許多物種的雌性和雄性之間對交配對象與自己的親戚關係是敏感的,且或許會完全放棄與血緣關係相近個體交配已避免付出近親雜交的代價。此外,在一妻多夫關係下的物種,雌性具有運用交配後的機制以避免使用到雄性親戚的精子;然而,目前並未有研究顯示雄性也可以在生殖細胞的層次上分辨並避免雌性親戚。作者在此以印度穀螟蛾(Plodia interpunctella)為對象的研究中發現,與提供精子給雄性的姊妹相比,雄性提供較多可孕與不可孕的精子給無血緣關係的雌性。這些結果指出雄蛾可藉由針對交配對象的血緣關係管理其有限的精子,以減少發生在近親雜交上的生殖投資。

Sperm production carries costs and males frequently tailor their ejaculates to maximize their reproductive success. Previous work shows that males are sensitive to variation in female quality, and to the risk and intensity of sperm competition, and adjust their ejaculates accordingly. Males and females of many species are sensitive to the relatedness of their mating partners and may forego mating with related individuals altogether to avoid the costs of inbreeding. In addition, in polyandrous species, females can potentially invoke postcopulatory mechanisms to avoid using related males' sperm, but to date no study has demonstrated that males also discriminate against related females at the level of the gamete. In this study on the Indian meal moth, Plodia interpunctella, males provided unrelated females with more fertile and nonfertile sperm than their sisters. These results indicate that male moths can minimize the potential costs of inbreeding by carefully managing their limited sperm supplies in relation to partner relatedness.


Keywords: inbreeding; Indian meal moth; Plodia interpunctella; sexual selection; sperm; strategic sperm allocation