鱗翅目幼蟲的自我療癒: 覺得被寄生了就多吃一點有毒的東西

圖片來源：Bettaman

文獻來源: Singer MS, Mace KC, Bernays EA (2009) Self-Medication as Adaptive Plasticity: Increased Ingestion of Plant Toxins by Parasitized Caterpillars. PLoS ONE 4(3): e4796. doi:10.1371/journal.pone.0004796

「自我療癒」是指動物遭遇疾病或被寄生時，所產生的一種特殊治療性質的行為改變。關於自我療癒的經驗觀察文獻主要集中在確認何種特殊行為會連結到何種治療結果的案例上。在本研究中，作者將「自我療癒」定義在廣義的適應可塑性之內，此可提供數個可測試的假說以驗證自我療癒與提升其概念上的意義。首先，「自我療癒」應該要能提高動物受到寄生物或病菌感染時的存活率；其次，在未受到感染的情形下進行「自我療癒」，應該會降低動物的適應度；第三，感染要能引發動物的「自我療癒」 行為。少數以人類以外的動物進行的嚴謹「自我療癒」研究並未採取此推理的架構，因此無法測試在未受到感染的情形下進行「自我療癒」會付出多少減低適應度的 代價。在此研究中，作者藉由人為操作實驗，測試燈蛾幼蟲(Grammia incorrupta; Lepidoptera: Arctiidae)如何因應致死性內寄生物（寄生蠅）而改變其進食行為，以驗證他們的假說。實驗顯示幼蟲攝取含有植物毒素ー植物鹼 （pyrrolizidine alkaloids）能賦予幼蟲對寄生蠅的忍受力，並提高被寄生蠅寄生之幼蟲的存活率。和預測一致的是，未被寄生的幼蟲若攝取過量的植物毒素則會降低他們的存活率。受寄生的幼蟲明顯較未被寄生的幼蟲攝取多量的植物鹼。這個實例挑戰了過去對於自行服藥療癒僅限於具有高度辨識能力的動物（如靈長類）的成見， 並推動有關自我療癒的科學進入適應可塑性的領域中。

Abstract
Self-medication is a specific therapeutic behavioral change in response to disease or parasitism. The empirical literature on selfmedication has so far focused entirely on identifying cases of self-medication in which particular behaviors are linked to therapeutic outcomes. In this study, we frame self-medication in the broader realm of adaptive plasticity, which provides several testable predictions for verifying self-medication and advancing its conceptual significance. First, self-medication behavior should improve the fitness of animals infected by parasites or pathogens. Second, self-medication behavior in the absence of infection should decrease fitness. Third, infection should induce self-medication behavior. The few rigorous studies of self-medication in non-human animals have not used this theoretical framework and thus have not tested fitness costs of self-medication in the absence of disease or parasitism. Here we use manipulative experiments to test these predictions with the foraging behavior of woolly bear caterpillars (Grammia incorrupta; Lepidoptera: Arctiidae) in response to their lethal endoparasites (tachinid flies). Our experiments show that the ingestion of plant toxins called pyrrolizidine alkaloids improves the survival of parasitized caterpillars by conferring resistance against tachinid flies. Consistent with theoretical prediction, excessive ingestion of these toxins reduces the survival of unparasitized caterpillars. Parasitized caterpillars are more likely than unparasitized caterpillars to specifically ingest large amounts of pyrrolizidine alkaloids. This case challenges the conventional view that self-medication behavior is restricted to animals with advanced cognitive abilities, such as primates, and empowers the science of self-medication by placing it in the domain of adaptive plasticity theory.

相關網站：Michael Singer's Home Page

廣食性幼蟲若把老葉新葉混著吃比較頭好壯壯

圖片來源：SwampThings文獻來源：R Johns, DT Quiring, R Lapointe, CJ Lucatotti. 2009. Foliage-age mixing within balsam fir increases the fitness of a generalist caterpillar. Ecological Entomology 34(5): 624-631. DOI: 10.1111/j.1365-2311.2009.01110.x

1. 作者利用野外操作實驗評估一種極度廣食性的植食性幼蟲-白斑毒蛾(Orygia leucostigma Smith)對植物-膠樅(Abies balsamea (L.) Mill)枝葉年齡的偏好表現情形。
2. 田野調查指出早齡幼蟲幾乎只取食年輕的枝葉（近一年生長者），而熟齡幼蟲則同時取食年輕和成熟的枝葉（如一年、兩年）。
3. 實驗中發現早齡幼蟲中取食幼嫩（近期或一年）枝葉者具有最高的存活率，但在取時老熟枝葉的組別中存活率則顯下降。相反地，熟齡幼蟲具有最高存活率的組別出現在能夠取食到所有年紀的枝葉者，而在熟齡幼蟲時期取食年輕枝葉者卻具有最高的生殖潛力。
4. 整體而言，能夠取食到所有年紀階層植物的幼蟲，其適應度比僅能取得一個年齡層枝葉的幼蟲高出 32–65% 。
5. 以上結果同時支持“互補飲食假說”和“個體發生學假說”。前者說明混合不同年齡層枝葉的食物能增加養分的攝取且/或稀釋掉有害的植物次級代謝物，而後者則歸因於昆蟲幼期在成長發育過程中隊營養需求之改變與/或對植物防禦的容忍度。

Abstract.

1. Manipulative field studies were carried out to evaluate the foliage age preference–performance relationship for an extreme generalist herbivore, the whitemarked tussock moth (Orygia leucostigma Smith) (Lepidoptera: Lymantriidae), within balsam fir [Abies balsamea (L.) Mill].
2. Field surveys indicated that early instar caterpillars fed almost exclusively on young (i.e. current-year) foliage, whereas late instars caterpillars fed on both young and mature (i.e. 1- and 2-year-old) foliage.
3. Survival of early instar caterpillars was highest in treatments where current-year and/or 1-year old foliage were available, but decreased significantly on older foliage. In contrast, late instar caterpillars had the highest survival when allowed to feed on all age classes of foliage, whereas potential fecundity was highest for late instars that fed on young foliage.
4. Overall, caterpillars had 32–65% higher fitness when able to feed on all rather than just one age class of foliage.
5. These results support both the ‘complementary diet’ hypothesis, which states that dietary mixing of different-aged foliage can increase nutrient uptake and/or dilute harmful secondary plant chemicals, and the ‘ontogeny’ hypothesis, which attributes changes in diet to changes in the nutritional needs and/or tolerance to plant defences of juvenile insects as they develop.

Key words. Foliage quality, foraging behaviour, intra-tree heterogeneity, polyphagy, whitemarked tussock moth.

星燈蛾屬分類學回顧與加拉巴哥產類群研究進展

星燈蛾屬的分佈與分類簡述
星燈蛾屬(Utehteisa)為夜蛾科燈蛾亞科燈蛾族(註一)中日行性活動的類群，屬內現分為四個亞屬，其一是過去挾義星燈蛾(Utetheisa sensu stricto)所限的星燈蛾亞屬，全世界大約20~30種，當中含廣泛分布於舊世界的U. pulchella、U. pulchelloides與U. lotrix(後兩者亦分佈於台灣)，以及新世界的U. ornatrix與U. bella，此亞屬類群之胸翅部具有紅黑白色塊斑紋，並取食紫草科的白水木屬(Tournefortia)植物，長久被認為利用此寄主的次級代謝物-氰化物(PAs)進行對天敵的化學防禦機制，並以警戒斑紋使天敵增強對星燈蛾有毒或不可食性(unpalatable)的印象。其餘三亞屬分別於Holloway (1988)(Pitasila與Atasca)以及de Vos (2007)(Raanya)置於星燈蛾屬下(詳見de Vos文章與本Blog對其文章的介紹)。此三屬在外觀上近似於燈蛾族成員蝶燈蛾屬(Nyctemera)， 然根據明尼蘇達大學Susan Weller研究群對燈蛾科親緣關係重建的結果，Nyctemera與Pitasila並非近緣群，而Pitasila顯然應被視為星燈蛾屬Utetheisa亞屬。三亞屬已知皆分佈於印澳區(Indo-Australian region)，所含物種數為25、13與1種，台灣有U. (Pitasila) fractifascia (模式標本)與U. (Pitasila) inconstans (原名模式標本、成蟲與幼蟲生態影像)，前者為台灣特有種，後者為分布於台灣與日本，並於2009年由傅建明與徐渙之先生確認其於綠島與蘭嶼的分佈。

加拉巴哥群島產星燈蛾屬研究史回顧
加拉巴哥距其南美洲屬國厄瓜多海岸線以西約971公里，為由大小不一的19座島嶼所組成的群島，其盛名與演化論提出者達爾文的旅航與該地相關研究有密切關係，其獨特的動植物相亦吸引生物學家屢屢造訪。事實上達爾文的造訪也與該群島星燈蛾屬的研究史有關，Butler (1877)指出達爾文曾經於群島上採集到廣泛分布於新世界的U. ornatrix，然而此證據標本至今無法由典藏於大英博物館的達爾文採集品中尋獲，而成為此島群研究史中其中的一個謎。Wallengren於1860年發表了第一種加拉巴哥特有的星燈蛾U. galapagensis(註二)，後續有Hayes (1975)所發表的U. perryi與U. devriesi兩新種，以及後續大約四篇對這些物種的群島內新地理分佈紀錄的文章。

加拉巴哥產星燈蛾之所以會被研究者關注，一方面是此屬為該群島鱗翅目特有率第三高的類群，並且是唯一分布於此地的燈蛾亞科；一方面是此群島所包含的星燈蛾除了新世界廣佈種U. ornatrix具有警戒色以外，其餘物種皆為灰褐色調，這個觀察使得加拉巴哥特有星燈蛾的化學防禦機制、日夜活動行為以及非警戒型顏色斑紋被拿來與典型星燈蛾做比較，並進一步探討此類群是否受不同的選汰壓力而演化。於此，Roque-Albelo等人於2002年對此觀察提出了四個假說: (1) 此類群具有化學防禦之不可被食性(unpalatable)，然而大多為夜行性活動因此使得日間視覺上警戒天敵的鮮明顏色不再被需要；(2) 具有化學防禦且為日行性，然而利用隱蔽的灰褐色作為第二線的防禦機制; (3) 沒有化學防禦因此具可被食性，也因此不需要具有警戒色來宣示其不好吃; (4) 既沒有化學防禦又是夜行性，因此就不需要具有警戒色。而Roque-Albelo等人雖然確認U. galapagensis幼蟲取食白水木屬植物並且能夠分泌氰化物，然而並沒有測試此物種的可被食性。Garrett等人於2008年的研究中選取了加拉巴哥特有的蜘蛛與火山岩蜥蜴作為U. galapagensis是否具有可被食性的實驗，並且使用同域分佈的螟蛾科物種作為控制組中的獵物。其結果顯示相對於控制組螟蛾被兩天敵完全取食，U. galapagensis實驗組中的蜘蛛會使用口氣接觸星燈蛾，最後將其棄於巢外，而蜥蜴並未取食所有星燈蛾，並顯示出勉強吞食的行為，以及取食後清理行為，少數情況蜥蜴嘗試取食後會再將星燈蛾吐出。Garrett等人對Roque-Albelo等人的假說提出討論，他們認為取食研究支持了前兩個假說，也就是以化學物質來抵禦夜行性蜘蛛，並以隱避色降低被蜥蜴的攻擊。此外另外兩特有種U. perryi與U. devriesi也正用來進行類似的取食實驗 (Hartmann et al., unpublished)。

這些觀察與假說測試，使Roque-Albelo等人 (2009)又衍生出了幾個對加拉巴哥特有、具隱蔽色星燈蛾類群演化上的興趣: (1) 這些星燈蛾是何時失去警戒色的? 又是什麼原因造成的 (2) 這些具隱避色類群是否由具警戒色的祖先拓殖至加拉巴哥，抑或是由夜行性具隱蔽色的祖先而來?

加拉巴哥群島產星燈蛾屬兩新物種描述
Roque-Albelo與Landry (2009)近期發表了兩新種U. connerorum與U. henrii，前種廣佈於群島，後者限於San Cristobal Island，並紀錄兩者皆取食厄瓜多特有白水木類群T. pubescens。此外並重新確認U. galapagensis僅分布於San Cristobal Island，並提供加拉巴哥此屬六物種的外部型態檢索表。作者在文中提及DeCosta對U. galapagensis與新種U. connerorum進行粒線體DNA之COI序列進行分析，在668鹼基對中遺傳距離介於1.06~2.26%，並建議兩者具有近緣關係。未來是否會加入其他特有種與警戒色類群一起分析探討加拉巴哥星燈蛾的起源? 著實令人期待。

註一: Lafontaine & Fibiger (2006)依據現有的形態資料，參考Mitchell et al. (2006)年的分子親緣關係，並考量到各分類群的單系性，提出夜蛾總科新的分類架構，當中將過去的燈蛾科與毒蛾科降為廣義夜蛾科中亞科的階層。夜蛾總科的分類研究現況將在未來再做介紹。

註二: Roque-Albelo與Landry (2009)提及U. galapagensis在Wallengren (1860)的原始發表中命名為Euchelia galapagenis，卻在Wallengren (1861)中將此種種小名載為galapagensis，然而並未指出更名的原因，因此1861年的galapagensis應為不正確的後續拼法(incorrect subsequent spelling)。然而galapagensis被所有後續研究者所盛行使用，故參考ICZN 33.3.1法規將此種小名考量為正當訂正 (justified emendation)並成為此物種的有效名。

相關網路資料
世界產星燈蛾名錄

參考文獻
Fu CM and Hsu HC. 2009. Moths of Green Island. Taichung: Taichung Nature Research Society, 78pp.
Garrett SE, Conner WE and Roque-Albelo L. 2008. Alkaloidal protection of Utetheisa galapagensis against an invertebrate and a vertebrate predator in the Galapagos Islands. Galapagos
Research 65: 2–6.
Hayes A. 1975. The larger moths of the Galapagos Islands (Geometroidea, Sphingoidea and Noctuoidea). Proceedings of the California Academy of Sciences 40(4): 145–208.
Holloway JD. 1988. The moths of Borneo, part 6: Actiidae: Syntominae, Euchromiinae, Arctiinae, Aganainae (to Noctuidae). Southdene Sdn. Bhd, Malaysia.
Roque-Albelo L, Garrett SE, Conner WE. 2009. Darwin’s moth: Utetheisa in the Galapagos Islands. In: Conner WE (Ed.) Tiger Moths and Woolly Bears: Behavior, Ecology, and Evolution of the Arctiidae. Oxford, Oxford University Press, 207–222. [Google Library線上部份閱覽、本Blog對此書的介紹]
Roque-Albelo L, Landry B. 2002. The Sphingidae (Lepidoptera) of the Galapagos Islands: their identifi cation, distribution, and host plants, with new records. Bulletin de la Societe Entomologique Suisse 74: 217–226.
Roque-Albelo L, Schroeder FC, Conner WE, Bezzerides A, Hoebeke ER, Meinwald J and Eisner T.
2002. Chemical defense and aposematism: the case of Utetheisa galapagensis. Chemoecology 12: 153–157.
Roque-Albelo L and Landry B. 2009. Two new species of Utetheisa Hubner (Lepidoptera, Noctuidae, Arctiinae) from the Galapagos Islands, Ecuador. ZooKeys 21: 55–72
Vos R de. 2007. The Utetheisa species of the subgenera Pitasila, Atasca and Raanya Subg. N. (Insecta, Lepidoptera: Arctiidae). Aldrovandia 3: 31-120.
Wallengren HDJ. 1860. Lepidopterologische Mittheilungen. II. Wiener Entomologische Monatschrift 4(6): 161–176.
Wallengren HDJ. 1861. Lepidoptera species novas descripsit. In: Kongliga Svenska Fregatten Eugenies Resa Omkring Jorden... Zoologi V, Insecta, pp. 351–390, 3 pls.

酢醬灰蝶如何轉換與利用來自寄主植物之類黃酮衍生物

圖片來源：台灣昆蟲維基館

文獻來源: Mizokami H & Yoshitama K. 2009. Sequestration and metabolism of host-plant flavonoids by the Pale Grass Blue, Pseudozizeeria maha (Lepidoptera: Lycaenidae). Entomological Science 12: 171–176. doi:10.1111/j.1479-8298.2009.00322.x

本研究針對類黃酮化合物在酢醬灰蝶 (Pseudozizeeria maha) 的卵、幼蟲、蛹與成蟲中的種類與含量。在蛹與成蟲中所偵測到類黃酮化合物衍生物主要是異牡荊素(Isovitexin)，而幼蟲體內主要的類黃酮化合物則是肥皂草苷（saponarin）。幼蟲會將異牡荊素經過生物轉換作用合成肥皂草苷，在蛹期則再將肥皂草苷轉換為異牡荊素。類黃酮化合物的總累積量會因性別而異、特別是在成蟲階段，雌性成蟲體內的類黃酮化合物濃度顯著高於雄性。在卵中亦可偵測到這些類黃酮化合物。以上結果指出類黃酮化合物不只被利用於翅膀色彩上、同時也可作為抵抗天然威脅的化學防禦化合物。

Abstract
Flavonoids in the eggs, larvae, pupae and adult butterflies of Pseudozizeeria maha were identified and quantified. Isovitexin (apigenin 6-C-glucoside) was the dominant flavonoid detected in pupae and imagines, whereas saponarin (isovitexin 7-O-glucoside) was the dominant flavonoid in larvae. Saponarin, biotransformed from isovitexin by the larvae, was found to be reconverted into isovitexin at the pupal stages. The total amounts of accumulated flavonoids differed between sexes, particularly in adults where the bodies of females had a much higher flavonoid concentration than that of the males. These flavonoids were also detected in the eggs. These results indicate the possibility that flavonoids are utilized in not only wing coloration but also as a chemical defense compound against natural threats.

Key words: C-glycosylflavones, Oxalis corniculata, plant–insect interaction, Pseudozizeeria maha.

歐洲玉米螟雌蛾可以從雄蛾的氣味中分辨其血統、年紀與生殖適應力

圖片來源: HYPP Zoology

Concerted evolution of male and female display traits in the European corn borer, Ostrinia nubilalis.

BMC Biology, 2009 (in press) provisional PDF (1MB)

Jean-Marc Lassance and Christer Löfsedt.

雌蛾與雄蛾都具有涉及近程或遠程溝通的費洛蒙，而雌雄兩性的費洛蒙似乎有不同的起源且受到不同的演化限制，故被認為是演化上互相獨立的特徵。雌蛾憑藉雄蛾釋放的費洛蒙選擇配偶，作者以歐洲玉米螟(Ostrinia nubilalis)進行實驗發現雌蛾可以由雄蛾釋放的化學混合物質中判別其血統、年紀與生殖適應力。雄蟲釋放的費洛蒙成分與年紀相關，而雌蟲在選擇試驗中傾向於選擇年紀較大的雄。作者以來自法國、匈牙利、美國、斯洛維尼亞族群與亞洲一個姊妹種的費洛蒙進行測試，結果發現這些化學物質組成差異使得母蛾會選擇與自己同類的雄蛾，此現象會促進生殖隔離- 這是形成新種的前奏。作者認為這結合了潛在的遺傳適應度，費洛蒙可能是蝶與蛾演化的推動力。

Background
Sexual reproduction entails the encounter of the sexes and the multiplicity of rituals is parallel to the diversity of mating systems. Evolutionary mechanisms such as sexual selection and sexual conflict have led to the elaboration of traits to gain attention and favours from potential partners. A paradox exists about how coordinated systems can evolve and diverge when there would seem to be a stabilising selection acting. Moth display traits - pheromones - constitute an advantageous model with which to address questions about the evolution of mating systems in animals. Both males and females can possess pheromones that are involved either in close- or long-range communication. Female and male pheromones appear to have different origins and to be under different evolutionary constraints, thus they might be envisioned as independently evolving traits. We conducted laboratory experiments to explore the role of scents released during courtship by males of the European corn borer, Ostrinia nubilalis.
Results
Information provided by the male pheromone appears critical for female acceptance. The composition of this male pheromone varies in an age-dependent manner and females show mating preference towards older males in choice experiments. Furthermore, male signals may allow species discrimination and reinforce reproductive isolation. Finally, we found evidence for a genetic correlation between male and female signals, the evolution of which is best explained by the constraints and opportunities resulting from the sharing of gene products.
Conclusions
In this study we used an integrative approach to characterise the male sex pheromone in a moth. Interestingly, the male chemical signal is analogous to the female signal in that structurally similar compounds are being used by both sexes. Hence, in systems where both sexes possess display traits, the pleiotropy of genes generating the traits could influence the evolutionary trajectories of sexual signals and lead to their divergence, with speciation being the ultimate result.

早在鱗翅目輻射演化之前促進費洛蒙生成的關鍵性生化合成基因家族便已出現

Key biosynthetic gene subfamily recruited for pheromone production prior to the extensive radiation of Lepidoptera

BMC Evolutionary Biology 2008, 8:270 Full text: PDF (2.4MB)

Marjorie A Liénard¹ , Maria Strandh¹ , Erik Hedenström³ , Tomas Johansson² and Christer Löfstedt¹

¹Chemical Ecology and Ecotoxicology, Department of Ecology, Lund University, Ecology Building, SE-22362, Lund, Sweden ²Microbial Ecology, Department of Ecology, Lund University, Ecology Building, SE-22362, Lund, Sweden ³Department of Natural Sciences, Institute of Natural Sciences, SE-85170, Sundsvall, Sweden

author email corresponding author email

Abstract

Background

Moths have evolved highly successful mating systems, relying on species-specific mixtures of sex pheromone components for long-distance mate communication. Acyl-CoA desaturases are key enzymes in the biosynthesis of these compounds and to a large extent they account for the great diversity of pheromone structures in Lepidoptera. A novel desaturase gene subfamily that displays Δ11 catalytic activities has been highlighted to account for most of the unique pheromone signatures of the taxonomically advanced ditrysian species. To assess the mechanisms driving pheromone evolution, information is needed about the signalling machinery of primitive moths. The currant shoot borer, Lampronia capitella, is the sole reported primitive non-ditrysian moth known to use unsaturated fatty-acid derivatives as sex-pheromone. By combining biochemical and molecular approaches we elucidated the biosynthesis paths of its main pheromone component, the (Z,Z)-9,11-tetradecadien-1-ol and bring new insights into the time point of the recruitment of the key Δ11-desaturase gene subfamily in moth pheromone biosynthesis.

Results

The reconstructed evolutionary tree of desaturases evidenced two ditrysian-specific lineages (the Δ11 and Δ9 (18C>16C)) to have orthologs in the primitive moth L. capitella despite being absent in Diptera and other insect genomes. Four acyl-CoA desaturase cDNAs were isolated from the pheromone gland, three of which are related to Δ9-desaturases whereas the fourth cDNA clusters with Δ11-desaturases. We demonstrated that this transcript (Lca-KPVQ) exclusively accounts for both steps of desaturation involved in pheromone biosynthesis. This enzyme possesses a Z11-desaturase activity that allows transforming the palmitate precursor (C16:0) into (Z)-11-hexadecenoic acid and the (Z)-9-tetradecenoic acid into the conjugated intermediate (Z,Z)-9,11-tetradecadienoic acid.

Conclusion

The involvement of a single Z11-desaturase in pheromone biosynthesis of a non-ditrysian moth species, supports that the duplication event leading to the origin of the Lepidoptera-specific Δ11-desaturase gene subfamily took place before radiation of ditrysian moths and their divergence from other heteroneuran lineages. Our findings uncover that this novel class of enzymes affords complex combinations of unique unsaturated fatty acyl-moieties of variable chain-lengths, regio- and stereo-specificities since early in moth history and contributes a notable innovation in the early evolution of moth-pheromones.

[新書]燈蛾與毛毛蟲：燈蛾科的行為、生態與演化

Tiger Moths and Woolly Bears: Behavior, Ecology, and Evolution of the Arctiidae

【編輯】 William E Conner
【出版】 Oxford University Press USA
【日期】 2008年11月20日
【規格】 精裝, 2.5*15.2*23.5 cm, 單色印刷, 303 pages, 18 黑白圖版+ 21彩色圖版.
【國際圖書編號】ISBN-13: 9780195327373
【價格】| £32.99 | approx. $48/€34| 博客來網路書店售價：2698元

【書介】
"Tiger moths"其實是中文所稱之燈蛾(Arctiid moths)，然而一般中文使用者直稱的虎蛾事實上指的是狹義夜蛾科(Noctuidae)虎蛾亞科(Agaristinae)的種類，無論是燈蛾或虎蛾, 兩者皆屬夜蛾總科(Noctuoidea)，且皆具有日行性、如虎斑艷麗對比色彩斑紋的類群。Wooly bears可泛指身披毛絨的鱗翅目幼蟲(多為燈蛾)，亦可專指分布於北美的燈蛾亞科物種Pyrrharctia isabella之幼蟲。台灣產的燈蛾科分屬為四個亞科: 鹿蛾亞科(Syntominae，約17種)、蜂燈蛾亞科(Ctenuchinae，1種)、燈蛾亞科(Arctiinae，約42種, 含蝶燈蛾亞科(Nycteminae)) 與苔蛾亞科(Lithosiinae，至少130種)，所有的亞科皆兼具日行性與夜行性種類。除了多樣化的外部形態特徵，燈蛾尚具有其他值得探討的課題，例如求偶行為、化學防禦、發聲與藉聽覺避敵的機制以及與不同生物地理區的蝴蝶、斑蛾、日行性夜蛾、蜂、椿象甚至蜚蠊互相形成擬態群的演化議題，這些由燈蛾為材料所衍生的最新研究都收錄在本書中。而本書作者William E. Conner為美國北卡羅萊納州維克森林大學(Wake Forest University)之生物學教授，其研究領域即以燈蛾作為主要研究材料，以探討視覺生態、化學生態與聽覺溝通的演化機制，他的研究群與明尼蘇達大學的Susan Weller有緊密的合作。

連結:
ConnerLab Homepage
Susan Weller Homepage

【簡介】Moths of the family Arctiidae, with their brilliant coloration, spectacular courtship rituals, and bizarre defenses, are wonders of the natural world. Unpalatable by virtue of secondary chemicals acquired from their hostplants, these moths advertise their defenses by their coloration and often mimic butterflies, wasps, bees, stinkbugs, and even cockroaches. They have ears with which they hear the echolocation of bats, and some answer with aposematic warnings, while some may jam the bats’ sonar.This book, the first written on this fascinating group, documents how tiger moths and woolly bears-the adults and larvae of the Arctiidae-flourish in a world rife with predators, parasites, and competitors. The contributing authors’ accounts, each written by a recognized expert in the field, weave together seminal studies on phylogeny and behavior, natural history, chemical communication, mate choice and sexual selection, chemical ecology, parasite-host relationships, self medication, animal orientation, predator-prey interactions, mimicry, adaptive coloration, speciation, biodiversity, and more.

Tirumala屬斑蝶的比較形態學: 生殖隔離與費洛蒙傳遞微粒

Hashimoto, K., Yata, O. 2008. Comparative morphological study in the genus Tirumala (Lepidoptera, Nymphalidae, Danainae): sexual isolation and PTPs. Transactions of the lepidopterological Society of Japan 59(4): 305-311.

斑蝶亞科利用鱗片上的phromone transfer particles (PTPs)傳遞性費洛蒙已經是被研究地相當清楚的生物現象, 而斑蝶各屬間的PTPs形態及其在親緣關係重建上的意義也已經被探索過. 這篇文章的作者橋本惠與矢田脩則針對Tirumala這個種間鑑別相當困難的屬進行PTPs的比較形態學研究. 他們的研究顯示即始是共棲的不同物種, 其PTPs的形態仍具有相當的差異, 他們也利用這樣的結果支持共域分部的斑蝶如何達成生殖隔離的假說.

圖片連結: Bettaman的Flickr相簿