The Development of Employers’ Training Investments Over Time – A Decomposition Analysis Using German Establishment Data

Using establishment data covering the time period 1997 to 2007, this paper investigates trends of employer-sponsored further training in Germany, with a focus on the share of establishments investing in training. In West and East Germany alike I find a positive time trend in the share of training active establishments. Applying Oaxaca-Blinder decomposition techniques shows that changes in some establishment characteristics affect the trend, however not only in a positive way. While the increase of the fraction of skilled workers, changes in industry composition and the risen share of innovative establishments contributed positively to the trend, the decreased fraction of establishments engaged in collective bargaining operates in opposite direction. In spite of these findings, the overall characteristics effect is rather small.Continuous training, employers, time trends, decomposition analysis

Perceptual strategies in active and passive hearing of neotropical bats

Basic spectral and temporal sound properties, such as frequency content and timing, are evaluated by the auditory system to build an internal representation of the external world and to generate auditory guided behaviour. Using echolocating bats as model system, I investigated aspects of spectral and temporal processing during echolocation and in relation to passive listening, and the echo-acoustic object recognition for navigation. In the first project (chapter 2), the spectral processing during passive and active hearing was compared in the echolocting bat Phyllostomus discolor. Sounds are ubiquitously used for many vital behaviours, such as communication, predator and prey detection, or echolocation. The frequency content of a sound is one major component for the correct perception of the transmitted information, but it is distorted while travelling from the sound source to the receiver. In order to correctly determine the frequency content of an acoustic signal, the receiver needs to compensate for these distortions. We first investigated whether P. discolor compensates for distortions of the spectral shape of transmitted sounds during passive listening. Bats were trained to discriminate lowpass filtered from highpass filtered acoustic impulses, while hearing a continuous white noise background with a flat spectral shape. We then assessed their spontaneous classification of acoustic impulses with varying spectral content depending on the background’s spectral shape (flat or lowpass filtered). Lowpass filtered noise background increased the proportion of highpass classifications of the same filtered impulses, compared to white noise background. Like humans, the bats thus compensated for the background’s spectral shape. In an active-acoustic version of the identical experiment, the bats had to classify filtered playbacks of their emitted echolocation calls instead of passively presented impulses. During echolocation, the classification of the filtered echoes was independent of the spectral shape of the passively presented background noise. Likewise, call structure did not change to compensate for the background’s spectral shape. Hence, auditory processing differs between passive and active hearing, with echolocation representing an independent mode with its own rules of auditory spectral analysis. The second project (chapter 3) was concerned with the accurate measurement of the time of occurrence of auditory signals, and as such also distance in echolocation. In addition, the importance of passive listening compared to echolocation turned out to be an unexpected factor in this study. To measure the distance to objects, called ranging, bats measure the time delay between an outgoing call and its returning echo. Ranging accuracy received considerable interest in echolocation research for several reasons: (i) behaviourally, it is of importance for the bat’s ability to locate objects and navigate its surrounding, (ii) physiologically, the neuronal implementation of precise measurements of very short time intervals is a challenge and (iii) the conjectured echo-acoustic receiver of bats is of interest for signal processing. Here, I trained the nectarivorous bat Glossophaga soricina to detect a jittering real target and found a biologically plausible distance accuracy of 4–7 mm, corresponding to a temporal accuracy of 20–40 μs. However, presumably all bats did not learn to use the jittering echo delay as the first and most prominent cue, but relied on passive acoustic listening first, which could only be prevented by the playback of masking noise. This shows that even a non-gleaning bat heavily relies on passive acoustic cues and that the measuring of short time intervals is difficult. This result questions other studies reporting a sub-microsecond time jitter threshold. The third project (chapter 4) linked the perception of echo-acoustic stimuli to the appropriate behavioural reactions, namely evasive flight manoeuvres around virtual objects presented in the flight paths of wild, untrained bats. Echolocating bats are able to orient in complete darkness only by analysing the echoes of their emitted calls. They detect, recognize and classify objects based on the spectro-temporal reflection pattern received at the two ears. Auditory object analysis, however, is inevitably more complicated than visual object analysis, because the one-dimensional acoustic time signal only transmits range information, i.e., the object’s distance and its longitudinal extent. All other object dimensions like width and height have to be inferred from comparative analysis of the signals at both ears and over time. The purpose of this study was to measure perceived object dimensions in wild, experimentally naïve bats by video-recording and analysing the bats’ evasive flight manoeuvres in response to the presentation of virtual echo-acoustic objects with independently manipulated acoustic parameters. Flight manoeuvres were analysed by extracting the flight paths of all passing bats. As a control to our method, we also recorded the flight paths of bats in response to a real object. Bats avoided the real object by flying around it. However, we did not find any flight path changes in response to the presentation of several virtual objects. We assume that the missing spatial extent of virtual echo-acoustic objects, due to playback from only one loudspeaker, was the main reason for the failure to evoke evasive flight manoeuvres. This study therefore emphasises for the first time the importance of the spatial dimension of virtual objects, which were up to now neglected in virtual object presentations

Student Success at One Borderlands Hispanic-Serving Institution

This study investigated the perceptions of student success of campus leaders at one Borderlands Hispanic-Serving Institution. The study incorporated 4 interviews, 9 observations, analysis of 23 documents as well as additional research to answer the research questions. The three themes emerged from the study were: (1) encouraging and empowering students to succeed, (2) removing barriers to student success, and (3) serving by default. Recommendations for educational leaders included serving by design, setting high expectations, getting to know students, encouraging and empowering students, and removing barriers to student success. Additionally, the findings of this study suggest that studying student success, investigating what is working at effective institutions, learning from effective educators and programs, and finding out more about barriers to student success will enable higher education and other leaders to better serve Latin* students

Developing ontologies in OWL: An observational study

No abstract

The effect of cave illumination on bats

Artificial light at night has large impacts on nocturnal wildlife such as bats, yet its effect varies with wavelength of light, context, and across species involved. Here, we studied in two experiments how wild bats of cave-roosting species (Rhinolophus mehelyi, R. euryale, Myotis capaccinii and Miniopterus schreibersii) respond to LED lights of different colours. In dual choice experiments, we measured the acoustic activity of bats in response to neutral-white, red or amber LED at a cave entrance and in a flight room – mimicking a cave interior. In the flight room, M. capaccinii and M. schreibersii preferred red to white light, but showed no preference for red over amber, or amber over white light. In the cave entrance experiment, all light colours reduced the activity of all emerging species, yet red LED had the least negative effect. Rhinolophus species reacted most strongly, matching their refusal to fly at all under any light treatment in the flight room. We conclude that the placement and light colour of LED light should be considered carefully in lighting concepts for caves both in the interior and at the entrance. In a cave interior, red LED light could be chosen – if needed at all – for careful temporary illumination of areas, yet areas important for bats should be avoided based on the precautionary principle. At cave entrances, the high sensitivity of most bat species, particularly of Rhinolophus spp., towards light sources almost irrespective of colour, calls for utmost caution when illuminating cave entrances

The Advisory System for Fertilizer Application in the German Democratic Republic Emphasizing the Minimization of Nitrogen Pollution

This paper describes one of three operational state computer systems used to give advice on agricultural problems in the GDR. The system, employed nationwide, is oriented to providing advice about fertilizer application on farms or even single fields. Of the other two computer systems, one is described in IIASA CP-79-18, "Environmental Problems of Agriculture II: Pest and Weed Management: Monitoring and Forecasting in the German Democratic Republic." The remaining operational system is applied to irrigation. At IIASA's request, the present paper emphasizes the methods of the system for determining the optimal amount of fertilizer to apply which allows for maximum agricultural production without wasting resources or harming the environment. The paper thus offers another contribution to the solution of nonpoint source chemical pollution problems which have been intensively studied at IIASA both in-house and in cooperation with other institutions

Interspecific acoustic recognition in two European bat communities

Echolocating bats emit echolocation calls for spatial orientation and foraging. These calls are often species-specific and are emitted at high intensity and repetition rate. Therefore, these calls could potentially function in intra- and/or inter-specific bat communication. For example, bats in the field approach playbacks of conspecific feeding buzzes, probably because feeding buzzes indicate an available foraging patch. In captivity, some species of bats recognize and distinguish the echolocation calls of different sympatric species. However, it is still unknown if and how acoustic species-recognition mediates interspecific interactions in the field. Here we aim to understand eavesdropping on bat echolocation calls within and across species boundaries in wild bats. We presented playbacks of conspecific and heterospecific search calls and feeding buzzes to four bat species with different foraging ecologies. The bats were generally more attracted by feeding buzzes than search calls and more by the calls of conspecifics than their heterospecifics. Furthermore, bats showed differential reaction to the calls of the heterospecifics. In particular, Myotis capaccinii reacted equally to the feeding buzzes of conspecifics and to ecologically more similar heterospecifics. Our results confirm eavesdropping on feeding buzzes at the intraspecific level in wild bats and provide the first experimental quantification of potential eavesdropping in European bats at the interspecific level. Our data support the hypothesis that bat echolocation calls have a communicative potential that allows interspecific, and potentially intraspecific, eavesdropping in the wild