调频蝙蝠对特定频率的抑制在耳蜗微音器电位信号上的反映

目的 蝙蝠耳蜗外听毛细胞产生的耳蜗微音器电位（cochlear microphonic，CM）信号包含有耳蜗基底膜运动的相关信息。本研究旨在通过分析调频（frequency modulation，FM）蝙蝠CM信号与其接收声波频率之间的关系，以探究蝙蝠耳蜗神经对回声定位的影响机制。方法 通过在腹侧耳蜗核放置一组金属电极，记录并分析FM蝙蝠（Eptesicus和Pipistrellus）CM信号对猝发声（tone burst）的刺激响应。结果 两种不同种类的FM蝙蝠（Eptesicus和Pipistrellus）在高声压刺激时，CM信号均值频率响应曲线均表现出在较窄的特定频率段发声明显凹陷。对于Eptesicus，其CM信号均值频率响应曲线在一次谐波和二次谐波的截止频率（terminal frequency，TF）两侧均有明显波谷，这些波谷凹陷从15 kHz起以 15 kHz的频率间隔重复出现；对于Pipistrellus，CM信号均值频率响应曲线仅在一次谐波两侧有明显波谷。结论 CM信号表现出的抑制作用与FM蝙蝠一次谐波和二次谐波TF之间的关系，反映出耳蜗神经对特定频率会产生抑制作用，这种抑制作用有助于蝙蝠提取调制到TF附近的目标定位信息。     

“Set and forget” does not work when it comes to fissure roosts carved into live trees for bats

Interest in carving cavities directly into trees to provide habitat for hollow-dependent wildlife is rapidly growing among researchers, conservation practitioners, community groups, and land managers. Monitoring programs have shown that some of the designs and approaches used to create these structures encourage uptake by fauna. However, evidence for occupancy of “bat specific” fissure cavities is lacking even though they are already being enthusiastically installed and advocated for by the arboriculture industry. To address this, we conducted a field trial to test the efficacy of carved bat fissure cavities (carved fissures), which had entrances designed to replicate the types of natural cracks and crevices that develop in live tree stems which are commonly used by bats. We found that the entrances to all 174 of the carved fissures we installed across 83 live trees were closed by wound wood growth within 6 years of installation, while some were closed by kino (sap produced by Eucalypteae spp.) flow within as little as 3 months. During surveys conducted while entrances to the carved fissures were still open, we did not record any direct or indirect evidence of bats (or any other vertebrates) using them as roosts. These results highlight the urgent need for systematic research, encompassing a broader range of carved designs, tree species, and environmental contexts to assess whether these types of fissure cavities that are carved into live trees can actually provide habitat for bats in the medium- to long-term.     

Hawkmoths produce anti-bat ultrasound

Bats and moths have been engaged in aerial warfare for nearly 65 Myr. This arms race has produced a suite of counter-adaptations in moths, including bat-detecting ears. One set of defensive strategies involves the active production of sound; tiger moths'' ultrasonic replies to bat attack have been shown to startle bats, warn the predators of bad taste and jam their biosonar. Here, we report that hawkmoths in the Choerocampina produce entirely ultrasonic sounds in response to tactile stimulation and the playback of biosonar attack sequences. Males do so by grating modified scraper scales on the outer surface of the genital valves against the inner margin of the last abdominal tergum. Preliminary data indicate that females also produce ultrasound to touch and playback of echolocation attack, but they do so with an entirely different mechanism. The anti-bat function of these sounds is unknown but might include startling, cross-family acoustic mimicry, warning of unprofitability or physical defence and/or jamming of echolocation. Hawkmoths present a novel and tractable system to study both the function and evolution of anti-bat defences.     

Migration and evolution of lesser long-nosed bats Leptonycteris curasoae, inferred from mitochondrial DNA

We used sequence variation within 297 bp of control region mitochondrial DNA (mtDNA) amplified from 53 lesser long-nosed bats, Leptonycteris curasoae (Phyllostomidae: Glossophaginae) captured at 13 locations in south-western United States and Mexico and one site in Venezuela to infer population structure and possible migration routes of this endangered nectar- and fruit-eating species. Phylogenetic analysis using maximum parsimony and UPGMA confirmed species and subspecies distinctions within Leptonycteris and revealed two clades exhibiting 3% sequence divergence within the Mexican subspecies, L. c. yerbabuenae . Even though many roosts contained L. c. yerbabuenae from both clades, weak population structure was detected both by a correlation between genetic differentiation, F _st, and geographical distance and by a cladistic estimate of the number of migration events required to align bat sequences with geographical location on maximum parsimony, as compared to random, trees. Three results suggest that L. c. yerbabuenae are more likely to migrate between sites along the Pacific coast of Mexico or along the foothills of the Sierra Madre Occidental than between these regions. (1) Seventeen of 20 bats which shared an identical sequence were captured up to 1800 km apart but within the same putative migration corridor. (2) Residuals from a regression of F _st on distance were greater between than within these regions. (3) Fewer migration events were required to align bats with these two groups than expected from random assignment. We recommend analysing independent genetic data and monitoring bat visitation to roost sites during migration to confirm these postulated movements.     

Circadian rhythms and photic entrainment of swimming activity in cave-dwelling fish Astyanax mexicanus (Actinopterygii: Characidae), from El Sotano La Tinaja,San Luis Potosi,Mexico

Circadian regulation has a profound adaptive meaning in timing the best performance of biological functions in a cyclic niche. However, in cave-dwelling animals (troglobitic), a lack of photic cyclic environment may represent a disadvantage for persistence of circadian rhythms. There are different populations of cave-dwelling fish Astyanax mexicanus in caves of the Sierra El Abra, Mexico, with different evolutive history. In the present work, we report that fish collected from El Sótano la Tinaja show circadian rhythms of swimming activity in laboratory conditions. Rhythms observed in some of the organisms entrain to either continuous light–dark cycles or discrete skeleton photoperiods tested. Our results indicate that circadian rhythm of swimming activity and their ability to entrain in discrete and continuous photoperiods persist in some organisms that might represent one of the oldest populations of cave-dwelling A. mexicanus in the Sierra El Abra.     

Bat head contains soft magnetic particles: Evidence from magnetism

Recent behavioral observations have indicated that bats can sense the Earth's magnetic field. To unravel the magnetoreception mechanism, the present study has utilized magnetic measurements on three migratory species (Miniopterus fuliginosus, Chaerephon plicata, and Nyctalus plancyi) and three non‐migratory species (Hipposideros armiger, Myotis ricketti, and Rhinolophus ferrumequinum). Room temperature isothermal remanent magnetization acquisition and alternating‐field demagnetization showed that the bats' heads contain soft magnetic particles. Statistical analyses indicated that the saturation isothermal remanent magnetization of brains (SIRM_{1T_brain}) of migratory species is higher than those of non‐migratory species. Furthermore, the SIRM_{1T_brain} of migratory bats is greater than their SIRM_{1T_skull}. Low‐temperature magnetic measurements suggested that the magnetic particles are likely magnetite (Fe₃O₄). This new evidence supports the assumption that some bats use magnetite particles for sensing and orientation in the Earth's magnetic field. Bioelectromagnetics 31:499–503, 2010. © 2010 Wiley‐Liss, Inc.