scholarly journals DIURNAL RHYTHM OF THE FEEDING ACTIVITY OF GOLDFISH WITH SPECIAL REFERENCE TO THE INFLECTION POINT OF TEMPERATURE CHANGES

1960 ◽  
Vol 26 (8) ◽  
pp. 783-791 ◽  
Author(s):  
Hachiro HIRATA
Keyword(s):  
Special Reference ◽  
Diurnal Rhythm ◽  
Inflection Point ◽  
Feeding Activity ◽  
Temperature Changes

The Activity of Slugs

1954 ◽  
Vol 31 (2) ◽  
pp. 165-187
Author(s):  
BARBARA H. DAINTON
Keyword(s):  
Water Content ◽  
Diurnal Rhythm ◽  
High Water ◽  
The Body ◽  
High Water Content ◽  
Atmospheric Moisture ◽  
Ecological Significance ◽  
Preferred Temperature ◽  
Temperature Changes ◽  
A Minor

1. The effect of moisture and temperature on the activity of slugs has been investigated in the laboratory and in the field. 2. Atmospheric moisture has no direct effect on activity, though it may limit the duration of activity by influencing the water content of the body. Animals of high water content are not inherently active but they respond more readily to other stimuli than animals of low water content. 3. Between 4 and 20° C. activity is induced by falling temperatures and suppressed by rising temperatures. Temperature changes as slight as 0.1° C. per hour are perceived. 4. The daily rhythm of activity and rest thus follows the normal diurnal rhythm of falling temperature by night and rising temperature by day, except when daytime mists and showers superimpose a minor fluctuation and result in daytime activity. No activity is observed on continuously wet days which are normally without such fluctuations. 5. Between 20 and 30° C. activity is induced by rising temperatures and suppressed by falling temperatures. The ecological significance of this is discussed. 6. When maintained at constant temperature slugs show a persistent but immediately and steadily deteriorating diurnal rhythm of activity and rest which could not of itself account for the regular appearance of nocturnal activity in the field. 7. In a temperature gradient slugs aggregate about a preferred temperature. The ecological significance of this is discussed. 8. The difficulty of describing these reactions in the terminology put forward by Fraenkel & Gunn (1940) is considered.

Notes on the behaviour of Pectinaria koreni

1988 ◽  
Vol 68 (1) ◽  
pp. 55-59 ◽  
Author(s):  
Artemis Nicolaidou
Keyword(s):  
Diurnal Rhythm ◽  
Preliminary Data ◽  
Feeding Activity ◽  
Vertical Movement ◽  
Sediment Reworking ◽  
Effect Of Light

The paper presents preliminary data on the response of Pectinaria koreni to light and on the effect of light and temperature on its rate of sediment reworking. Pectinaria at the ‘settling in’ stage reacted to light by burying themselves completely under the sediment. There was indication that vertical movement of Pectinaria in the sediment followed a diurnal rhythm probably associated with feeding activity. Pectinaria was most active at higher temperatures and in the dark. At 7 °C the rate of sediment reworking was significantly less than that at 10 and 15 °C and was not affected by light. At 10 and 15 °C the amount of sediment reworked in the dark was significantly greater than that reworked in the light.

scholarly journals Reliability of stomach temperature changes in determining feeding characteristics of seabirds

1995 ◽  
Vol 198 (5) ◽  
pp. 1115-1135 ◽  
Author(s):  
R P Wilson ◽  
K Pütz ◽  
D Grémillet ◽  
B M Culik ◽  
M Kierspel ◽  
...  
Keyword(s):  
Feeding Activity ◽  
Stomach Contents ◽  
Blood Perfusion ◽  
Quality Of Data ◽  
Temperature Changes ◽  
Stomach Temperature ◽  
Physical Form ◽  
Animal Activity ◽  
Prey Items

We examined the accuracy of stomach temperature archival units (STAUs), which are typically used to determine feeding activity in marine endotherms, with regard to determination of the time of prey ingestion as well as the number of prey items ingested and their masses. Units were deployed in nine species of free-living seabirds, where feeding conditions were uncontrolled, eight species of captive seabirds, where feeding conditions could be partially controlled, and in laboratory stomach simulations, where variables could be strictly controlled. The quality of data obtained on the timing of feeding, the mass ingested and the number of prey items ingested was subject to two main sources of error (i) those induced by changes in animal activity and (ii) those resulting from the physical form of the STAUs themselves. Animal activity factors considered important included the following: variability in (a) body temperature, (b) stomach blood perfusion, (c) consistency of stomach contents and (d) stomach churning and changes in body orientation. The physical form (size and buoyancy) of the STAU affected the location of the unit within the stomach, and thus the likelihood that ingested prey comes into contact with the sensor. The timing of prey ingestion can generally be determined accurately; however, considerable errors in mass estimates can occur if data acquired using STAUs are not critically assessed. An understanding of these sources of errors will allow researchers to construct STAUs appropriate to the species being studied and to analyze data critically so that errors are reduced.

Cryo-TEM of amphiphilic polymer and amphiphile/polymer solutions

1993 ◽  
Vol 51 ◽  
pp. 876-877
Author(s):  
Yeshayahu Talmon
Keyword(s):  
Microstructural Characterization ◽  
Building Blocks ◽  
Quantitative Information ◽  
Physical Models ◽  
Specimen Preparation ◽  
Time Resolved ◽  
Temperature Changes ◽  
Temperature And Humidity ◽  
Microstructured Fluids ◽  
Air Streams

To achieve complete microstructural characterization of self-aggregating systems, one needs direct images in addition to quantitative information from non-imaging, e.g., scattering or Theological measurements, techniques. Cryo-TEM enables us to image fluid microstructures at better than one nanometer resolution, with minimal specimen preparation artifacts. Direct images are used to determine the “building blocks” of the fluid microstructure; these are used to build reliable physical models with which quantitative information from techniques such as small-angle x-ray or neutron scattering can be analyzed.To prepare vitrified specimens of microstructured fluids, we have developed the Controlled Environment Vitrification System (CEVS), that enables us to prepare samples under controlled temperature and humidity conditions, thus minimizing microstructural rearrangement due to volatile evaporation or temperature changes. The CEVS may be used to trigger on-the-grid processes to induce formation of new phases, or to study intermediate, transient structures during change of phase (“time-resolved cryo-TEM”). Recently we have developed a new CEVS, where temperature and humidity are controlled by continuous flow of a mixture of humidified and dry air streams.

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