Associational resistance for mule’s ears with sagebrush neighbors

Many examples of associational resistance have been reported, in which a plant’s neighbors reduce the rate of damage by herbivores that it experiences. Despite 30 years of interest and hundreds of examples of associational resistance, we still know very little about how plants avoid their herbivores. This lack of mechanistic understanding prevents us from predicting when or where associational resistance will be important or might affect species’ distributions. I demonstrate here that the plant neighborhoods that surrounded focal mule’s ears (Wyethia mollis) individuals affected the damage they received. In particular, distance between a focal mule’s ears individual and its nearest sagebrush neighbor (Artemisia tridentata) was a good predictor of how much leaf area the mule’s ears would lose to herbivores over 2 years. Mule’s ears close to sagebrush suffered less loss than those with more distant nearest sagebrush neighbors. Mule’s ears with near sagebrush neighbors suffered half the leaf loss as mule’s ears with sagebrush experimentally removed. This associational resistance was probably not caused by sagebrush attracting or increasing populations of predators of generalist herbivores. Sagebrush is known to emit chemicals that are feeding deterrents to generalist grasshoppers and these deterrents were probably involved here. Volatile chemicals emitted by damaged sagebrush have been found to induce resistance in neighboring plants of several species. However, I found no evidence for such eavesdropping here as mule’s ears gained associational resistance from sagebrush neighbors whether or not those sagebrush neighbors had been experimentally damaged. Understanding the mechanisms responsible for associational resistance is critical to predicting where and when it will be important.     

Using Drosophila for studying fundamental processes in hearing

Apart from detecting sounds, vertebrate ears occasionally produce sounds. These spontaneous otoacoustic emissions are the most compelling evidence for the existence of the cochlear amplifier, an active force-generating process within the cochlea that resides in the motility of the hair cells. Insects have neither a cochlea nor hair cells, yet recent studies demonstrate that an active process that is equivalent to the cochlear amplifier occurs in at least some insect ears; like hair cells, the chordotonal sensory neurons that mediate hearing in Drosophila actively generate forces that augment the minute vibrations they transduce. This neuron-based force-generation, its impact on the ear's macroscopic performance, and the underlying molecular mechanism are the topics of this article, which summarizes some of the recent findings on how the Drosophila organ of hearing works. Functional parallels with vertebrate auditory systems are described that recommend the fly for the study of fundamental processes in hearing.     

Auditory neuroscience: how to encode microsecond differences

Minute differences between the time of arrival of a sound at the two ears are used by humans and animals to locate the source. New in vivo recordings have shed light on how auditory neurons solve the problem of resolving microsecond time differences.     

Camel Robert Irwin

ABSTRACT

This study investigated a question related to people's perceptions of dog personality. We examined whether people attribute personality characteristics to dogs based on physical features of the dog, specifically, coat color and ear shape. In order to address this question, we presented participants with photographs of dogs in which a single physical characteristic of the dog, either coat color (black vs. yellow) or ear shape (pointy ears vs. floppy ears) had been manipulated. Participants (n = 124) completed an online survey in which they rated the personality of the dogs (one black, one yellow, one with pointy ears, and one with floppy ears) while viewing these photographs. Participants rated dog personality using a brief inventory of the Big Five personality dimensions (the Ten-Item Personality Inventory). Participants rated the yellow dog significantly higher than the black dog on the personality dimensions of Agreeableness, Conscientiousness, and Emotional Stability. The floppy-eared dog was rated significantly higher than the pointyeared dog on Agreeableness and Emotional Stability and significantly lower on Extraversion. These results indicate that people attribute different personality characteristics to dogs based solely on physical characteristics of the dog. These results have implications for how people judge personality variables in dogs, particularly during brief encounters where physical attributes of the animal are likely to be highly salient.     

Auricular repair with autogenous rib cartilage grafts: two decades of experience with 600 cases.

The purpose of this paper is twofold: to present a sound approach to auricular construction using methods that have evolved through two decades of my personal experience with 600 cases and to discuss pertinent information I have gleaned from a questionnaire sent to my operated patients. This series comprises 546 completed ears in 500 microtia patients (46 bilateral) and 75 completed ears in acquired deformities. Follow-up ranges from 1 to 17 years. Major complications such as infection, hematoma, or skin loss with cartilage exposure occurred in only 1.6 percent of cases and were limited to the perioperative period of 12 days. None have occurred in the last 9 years (481 frameworks). This paper describes the evolution and rationale for my current management of total ear repair and covers preoperative planning, how to fabricate the rib cartilage framework, how to modify the framework for specific deformities, and how to cover the framework, i.e., how to assess and use local skin and vestiges or when to supplement the coverage by recruiting fascial flaps or using tissue expansion. When considering fascial flaps, patient selection was found to be particularly important because of long-term effects on the donor scalp; expansion was found to be most useful intraoperatively. This paper also covers how to manage the hairline, how to stage the surgery, when to combine procedures, and how to manage bilateral microtia in a team approach. The survey revealed that autogenous cartilage frameworks grow, are durable, retain their detail over the years, and withstand trauma well. More than 40 severe traumas occurred in surgically constructed ears, and all healed without incident. Ears constructed in young patients generally grew to keep pace with the opposite normal side; 41.6 percent actually overgrew by several millimeters. Emotional and psychological benefits were universal, and patient satisfaction was high. Among patients who were classified as "severely affected" by the original deformity, 100 percent were pleased with the result. When considered "moderately disturbed" by the microtic defect and operated on by age 14, 95.5 percent of patients were satisfied with the surgical repair; 83.3 percent of adolescents between the ages of 15 and 20 who did not consider themselves "severely affected" by the deformity were pleased with the outcome, and the rest were "undecided."     

Blood polymorphism in the study of isolated communities

Isolated communities offer a unique opportunity for the study of biological and social consequences of consanguinity and migration. The studies of genetic polymorphisms have contributed greatly, not only to knowledge of the genetic constitution of a given individual and population, but also to clarify either relationship between structure and function of polymorphic traits or the susceptibility to multifactorial diseases, in which interaction between the gene and environment cannot be ignored. For over 25 years, we have investigated the effect of consanguinity and genetic polymorphisms in 9 isolated communities in Western Japan. We reported here different values of gene frequency for each polymorphic trait, compared with the neighboring communities and described how we applied these data to clarification of the genetic constitution of isolated communities as well as of genetic susceptibility to some diseases.     

RECENT BIO ACOUSTIC PUBLICATIONS (mainly 1993)

ABSTRACT

Although much research has been done to describe the degradation of sound signals propagating in natural habitats, the directional cues of sound have so far been neglected. This paper describes a first approach to quantifying the degradation of directional cues in sound propagating parallel to the ground in a grassland habitat of orthopteran insects. A matched pair of probe microphones measured the sound amplitude and phase close to the ears of grasshopper carcasses for 12 evenly spaced directions of sound incidence. The degradation was found to increase with frequency and distance from the sound source and to decrease with distance from the ground. The acoustical data were used to predict how well animals with different auditory systems can determine the direction of the sender. At one position in the habitat, the predictions were compared with the pattern of phonotactic responses of live grasshoppers. Amplitude cues appear to degrade much faster with distance than phase cues. Animals exploiting phase cues may therefore maintain a reasonable directional hearing when the amplitude cues no longer make sense. The pressure-difference-receiver type of ears responds to phase differences, and these ears may be particularly suited to overcoming the degradation of directional cues. This suggests that the possession of such ears may be an adaptation not only to small body size (relative to wavelength), but also to the acoustic properties of the habitat.     

Novel schemes for hearing and orientation in insects

Severe size constraints are imposed on the hearing organs of insects, yet they perform sophisticated tasks of auditory processing. Recent research has shown how flies acoustically locate targets in space, how mosquitoes afford highly sensitive ears, and how crickets avoid deafening themselves with their songs. These findings unveil the exquisite analytical capabilities of highly specialized microscale auditory systems.     

High binaural coherence determines successful sound localization and increased activity in posterior auditory areas

Our brain continuously receives complex combinations of sounds originating from different sources and relating to different events in the external world. Timing differences between the two ears can be used to localize sounds in space, but only when the inputs to the two ears have similar spectrotemporal profiles (high binaural coherence). We used fMRI to investigate any modulation of auditory responses by binaural coherence. We assessed how processing of these cues depends on whether spatial information is task relevant and whether brain activity correlates with subjects' localization performance. We found that activity in Heschl's gyrus increased with increasing coherence, irrespective of whether localization was task relevant. Posterior auditory regions also showed increased activity for high coherence, primarily when sound localization was required and subjects successfully localized sounds. We conclude that binaural coherence cues are processed throughout the auditory cortex and that these cues are used in posterior regions for successful auditory localization.     

Isolation of Sphingomonas Strains from Ears of Rice and Other Plants of Family Gramineae

Sphingomonas strains were isolated in high frequency from ears of rice (Oryza sativa), Echinochloa crus-galli, and Setaria viridis. Isolates were identified by the rapid method of cellular fatty acid analysis. Isolated Sphingomonas strains have 2-hydroxymyristate as a sole hydroxy fatty acid, ubiquinone Q-10, and glycosphingolipid. This study demonstrated that sphingomonads are members of a natural flora of microorganisms in ears of rice and taxonomically related plants.     

STRUCTURE AND FUNCTION IN WHALE EARS

ABSTRACT

Ultrasonic echolocation abilities are well documented in several dolphin species, but hearing characteristics are unknown for most whales. Vocalization data suggest whale hearing spans infra- to ultrasonic ranges. This paper presents an overview of whale ear anatomy and analyzes 1) how whale ears are adapted for underwater hearing and 2) how inner ear differences relate to different hearing capacities among whales.

Whales have adaptations for rapid, deep diving and long submersion; e.g., broad- bore Eustachian tubes, no pinnae, and no air-filled external canals, that impact sound reception. In odontocetes, two soft tissue channels conduct sound to the ear. In mysticetes, bone and soft tissue conduction are likely. The middle ear is air-filled but has an extensible mucosa. Cochlear structures are hypertrophied and vestibular components are reduced. Auditory ganglion cell densities are double land mammal averages (2000–4000/mm). Basilar membrane lengths range 20–70 mm; gradients are larger than in terrestrial mammals. Odontocetes have 20–60% bony membrane support and basal ratios >0.6, consistent with hearing >150 kHz. Mysticetes have apical ratios <0.002 and no bony lateral support, implying acute infrasonic hearing. Cochlear hypertrophy may be adaptive for high background noise. Vestibular loss is consistent with cervical fusion. Exceptionally high auditory fiber counts suggest both mysticetes and odontocetes have ears “wired” for more complex signal processing mechanisms than most land mammals.     

Better than fish on land? Hearing across metamorphosis in salamanders

Early tetrapods faced an auditory challenge from the impedance mismatch between air and tissue in the transition from aquatic to terrestrial lifestyles during the Early Carboniferous (350 Ma). Consequently, tetrapods may have been deaf to airborne sounds for up to 100 Myr until tympanic middle ears evolved during the Triassic. The middle ear morphology of recent urodeles is similar to that of early ‘lepospondyl’ microsaur tetrapods, and experimental studies on their hearing capabilities are therefore useful to understand the evolutionary and functional drivers behind the shift from aquatic to aerial hearing in early tetrapods. Here, we combine imaging techniques with neurophysiological measurements to resolve how the change from aquatic larvae to terrestrial adult affects the ear morphology and sensory capabilities of salamanders. We show that air-induced pressure detection enhances underwater hearing sensitivity of salamanders at frequencies above 120 Hz, and that both terrestrial adults and fully aquatic juvenile salamanders can detect airborne sound. Collectively, these findings suggest that early atympanic tetrapods may have been pre-equipped to aerial hearing and are able to hear airborne sound better than fish on land. When selected for, this rudimentary hearing could have led to the evolution of tympanic middle ears.     

A test of Darwin's ‘lop‐eared’ rabbit hypothesis

Integration of evolutionary and developmental biology has stimulated novel insights on the origins and maintenance of phenotypic variation. For instance, phenotypic accommodation predicts that trait covariance originates via a novel developmental input caused by genetic change in one trait, but not the other. Darwin provided a striking example of this process in the ‘lop‐eared’ rabbit by demonstrating that artificial selection for long external ears induced variation in the external auditory meatus. Although this intriguing pattern has been interpreted as evidence of phenotypic accommodation, it is unclear whether it exists and, if it does, whether it is selectively maintained in nature. To address this concern, we examined trait covariance in natural woodrat populations that have likely undergone selection for long ears. We demonstrated a remarkably similar covariance pattern as in the ‘lop‐eared’ rabbit, which was associated with climatic variables along a steep arid‐to‐moist longitudinal gradient. Thus, our results suggest that trait covariance is likely a correlated response to selection. We relate these findings to potential origins of trait covariance owing to altered developmental interactions, such as in phenotypic accommodation. Additional evidence is needed to clarify how phenotypic accommodation and correlated selection promote and maintain trait covariance in natural populations. Nonetheless, our study is the first to support a classic Darwinian example concerning domestication and natural selection.     

Intracochlear Bleeding Enhances Cochlear Fibrosis and Ossification: An Animal Study

The aim of this study was to investigate the effects of intracochlear bleeding during cochleostomy on cochlear inflammatory response and residual hearing in a guinea pig animal model. Auditory brainstem response threshold shifts were greater in blood injected ears (p<0.05). Interleukin-1β, interleukin-10, tumor necrosis factor-α and nitric oxide synthase 2, cytokines that are related to early stage inflammation, were significantly increased in blood injected ears compared to normal and cochleostomy only ears at 1 day after surgery; with the increased IL-1β being sustained until 3 days after the surgery (p<0.05). Hair cells were more severely damaged in blood injected ears than in cochleostomy only ears. Histopathologic examination revealed more extensive fibrosis and ossification in blood injected ears than cochleostomy only ears. These results show that intracochlear bleeding enhanced cochlear inflammation resulting in increased fibrosis and ossification in an experimental animal model.     

Molecular phylogenies,morphological homologies and the evolution of moth ‘ears’

The recent suggestion that complex hearing organs (‘ears’) may have been evolved just once in the stem lineage of a clade of ditrysian moths including the pyraloids and ‘Macroheterocera’ is discussed. It is argued that homology between ears situated in different segments and in different morphological territories (dorsal or ventral) of the same segment must be ruled out, and that therefore the number of independent origins of ears in the said clade is three at the very least. Mechanical protection of the ventral abdominal base by the backwards slanting metacoxae permits an attenuation of the body wall which would facilitate multiple independent origins of ears exactly in this region.     

Effect of increased temperature in apical regions of maize ears on starch-synthesis enzymes and accumulation of sugars and starch

Apical florets of maize (Zea mays L.) ears differentiate later than basal florets and form kernels which have lower dry matter accumulation rates. The purpose of this study was to determine whether increasing the temperature of apical kernels during the dry matter accumulation period would alter the difference in growth rate between apical and basal kernels. Apical regions of field-grown maize (cultivar Cornell 175) ears were heated to 25 ± 3°C from 7 days after pollination to maturity (tip-heated ears) and compared with unheated ears (control). In controls, apical-kernel endosperm had 24% smaller dry weight at maturity, lower concentration of sucrose, and lower activity of ADP-Glc starch synthase than basal-kernel endosperm, whereas ADP-Glc-pyrophosphorylase (ADPG-PPase) activities were similar. In tip-heated ears apical-kernel endosperm had the same growth rate and final weight as basal-kernel endosperm and apical kernels had higher sucrose concentrations, higher ADP-Glc starch synthase activity, and similar ADPG-PPase activity. Total grain weight per ear was not increased by tip-heating because the increase in size of apical kernels was partially offset by a slight decrease in size of the basal- and middle-position kernels. Tip-heating hastened some of the developmental events in apical kernels. ADPG-PPase and ADP-Glc starch synthase activities reached peak levels and starch concentration began rising earlier in apical kernels. However, tip-heating did not shorten the period of starch accumulation in apical kernels. The results indicate that the lower growth rate and smaller size of apical kernels are not solely determined by differences in prepollination floret development.     

应用肱骨近端内锁定系统治疗高龄肱骨近端骨折

目的:探讨应用肱骨近端内锁定系统(PHILOS)治疗高龄肱骨近端骨折的方法及疗效。方法:2007年10月至2010年02月间,我院使用PHILOS内固定钢板治疗高龄肱骨近端骨折45例,男19例,女26例,年龄54～75岁,平均66岁。根据Neer分型,一部分骨折4例,二部分骨折6例,三部分骨折17例,四部分骨折18例。手术采用三角肌钝性劈开入路,保护附着于大骨折块和大、小结节上的软组织,骨折复位后均行PHILOS固定。患肩功能按Neer肩关节评分系统进行评价。结果:本组随访时间10～24个月,平均16个月。骨折均愈合,平均愈合时间3个月。患侧肩关节评分优28例,良12例,可3例,差2例,优良率为88.9%。结论:PHILOS钢板可牢固固定高龄患者骨折,使骨折愈合与功能恢复相同步,适于粉碎性骨折和肱骨近端骨质疏松骨折的治疗。     

Reconstruction of a three-dimensional structure using cartilage regenerated from the perichondrium of rabbits

Human tissues such as those found in the ear, nose, eyelid, lip, and larynx have complicated and delicate three-dimensional structures, which are difficult to reconstruct and restore to normal function following damage by tumor, congenital disease, or trauma. We devised a new reconstructive technique for the lost tissues by using cartilage regenerated from the perichondrium. In 12 ears of 12 rabbits, the layer between the perichondrium and the cartilage was stripped off. The exposed cartilage was punched out in large amounts to resemble a flexible, honeycomb-like structure. Then, we sandwiched the rabbit ears with two thermoplastic plates, which maintained a structure of the anterior surface of the human ear for 8 weeks. Structural change was studied in all cases, and some parts of the remodeled tissue were studied pathologically. Out of 12 ears, 8 had a rigid structure with a shape like a human ear using regenerated cartilage from the perichondrium of rabbits, 2 were infected, and 2 had a decubitus ulcer on the conchal surface as a result of compression from the plate. This study suggests that the use of the cartilage regenerated from the perichondrium may lead to a successful treatment also in humans for a variety of three-dimensional structures that have been damaged.     

Moth hearing on the Faeroe Islands, an area without bats

ABSTRACT. The ultrasound-sensitive ears found in several families of moths are believed to be part of a predator (bat) specific defence strategy; the moth's evasive responses, elicited by the calls of bats, reduce its chances of being caught. Bats have never been found on the Faeroe Islands, whereas moths migrated there before the last Ice Age, and have since been isolated from areas with bats. For this reason, the hearing characteristics of moths from the Faeroes are investigated in this study. All noctuid moths caught there have functional ears sensitive to ultrasound. Audiograms are determined for thirty-two individuals of four noctuid species: Cerapteryx gramminis L., Apamea crenata Hūfn., Apamea maillardi Gey. and Diarsia mendica F. The auditory characteristics of the moths from the Faeroes resemble those of moths from other temperate zones where bats are abundant. The audiograms revealed best frequencies between 20 and 45 kHz, relatively broad turnings (Q_10dB around 1), and thresholds of 35–50 dB SPL at the best frequency. The fact that the moths on the Faeroes possess such sensitive ears is explained by the large time spans which might be required for reduction of a character which is not directly opposed by a selection pressure.     

Theoretical and Experimental Studies of Energy Exchange from Jackrabbit Ears and Cylindrically Shaped Appendages

Convection properties of jackrabbit ears were examined in a wind tunnel and in the field in an attempt to study the possible thermal role of the large ears. This work was part of a study on energy exchange of appendages. Cylindrical copper models of various shapes, aluminum castings of domestic and jackrabbit ears, and an amputated jackrabbit ear were studied in a wind tunnel (a) to define the range for convective heat loss for appendages of various shapes, and (b) to study the effect on convection of model shape and orientation to the wind. Shape, i.e. length and closure, proved important. Orientation to the wind produced no consistent or significant variation in the convection coefficient. The convection coefficients from the ear castings fell within the range generated from the cylindrical models. The convection coefficients for the amputated rabbit ear fell partially within the range. Net thermal radiation loss at midday from the jackrabbit ears was found to be small. Convection from the ears, however, could account for the loss of over 100% of the animal's metabolic heat at an air temperature of 30°C. If air temperature exceeds body temperature, the animal must either store heat or resort to the evaporation of water.