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Autumn field-feeding patterns of the wild mallard duck (Anas platyrhynchos)Ball, Garth 31 September 1983 (has links)
Sixteen adult male and 8 adult female post moult mallards were
equipped with radio transmitters, in a two year study (1977-6AHY-M
and 4AHY-F; 1978-10AHY-M and 4AHY-F). Field-feeding was monitored at
a lure crop and on adjacent grain fields. Ninety-two percent of the
mallards radio-equipped were recorded at a field-feeding site at least
once with 71% recorded field-feeding within one week. There was no
significant difference in field-feeding activity between males and
females.
In the morning during periods of rain, mallards field-fed 0.55h
longer, arriving 0.30h later and departing 0.9h later than mallards
field-feeding during clear weather. The morning field-feeding period
was longer in duration than the evening foeld-feeding period.
Light intensity was the dominant climatological variable contributing
to the arrival of mallards in the morning during periods of no rain
(multiple R2=68.1%) and rain (R2=69.5%). Light appeared to act as an
initiating cue for morning feeding activity. A high correlation existed
between duration of stay during periods of no rain (r=0.815) and rain
(r=0.860) suggesting that mallards remained longer at a field-feeding
site in the morning by departing later, not arriving earlier.
Light intensity was also the dominant climatological variable
contributing to the arrival of mallards in the evening amongst those
mallards which field-feed in both the morning and evening (R2=78.1%)
and those which field-fed in the evening only (R2=63.3%). In addition,
light intensity was the only contributing factor in the evening for all
mallards departing a field-feeding site (R2=72.7%). Mallards were
never recorded field-feeding longer than 15 minutes after there was
non measurable light...
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Autumn field-feeding patterns of the wild mallard duck (Anas platyrhynchos)Ball, Garth 31 September 1983 (has links)
Sixteen adult male and 8 adult female post moult mallards were
equipped with radio transmitters, in a two year study (1977-6AHY-M
and 4AHY-F; 1978-10AHY-M and 4AHY-F). Field-feeding was monitored at
a lure crop and on adjacent grain fields. Ninety-two percent of the
mallards radio-equipped were recorded at a field-feeding site at least
once with 71% recorded field-feeding within one week. There was no
significant difference in field-feeding activity between males and
females.
In the morning during periods of rain, mallards field-fed 0.55h
longer, arriving 0.30h later and departing 0.9h later than mallards
field-feeding during clear weather. The morning field-feeding period
was longer in duration than the evening foeld-feeding period.
Light intensity was the dominant climatological variable contributing
to the arrival of mallards in the morning during periods of no rain
(multiple R2=68.1%) and rain (R2=69.5%). Light appeared to act as an
initiating cue for morning feeding activity. A high correlation existed
between duration of stay during periods of no rain (r=0.815) and rain
(r=0.860) suggesting that mallards remained longer at a field-feeding
site in the morning by departing later, not arriving earlier.
Light intensity was also the dominant climatological variable
contributing to the arrival of mallards in the evening amongst those
mallards which field-feed in both the morning and evening (R2=78.1%)
and those which field-fed in the evening only (R2=63.3%). In addition,
light intensity was the only contributing factor in the evening for all
mallards departing a field-feeding site (R2=72.7%). Mallards were
never recorded field-feeding longer than 15 minutes after there was
non measurable light...
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An examination of the kinematics and behavior of mallards (Anas platyrhynchos) during water landingsWhitehead, John Gardner 20 July 2020 (has links)
This dissertation aims to address how a change in landing substrate may change landing kinematics. To examine this possibility, mallards (Anas playtrhynchos) were used as a study species and 177 water landings were recorded through the use of two camera systems with photogrammetric capabilities. This enabled the landing trajectory and landing transition kinematics to be tracked in three dimensions. From the resulting position data three questions were pursued. Do mallards regulate landing kinematics through a ̇-constant strategy? With what kinematics do mallards land on water? Do landing kinematics respond to external factors, such as an obstacle to landing? Chapter 2 assesses the presence of a ̇-constant regulatory strategy and compares the implementation to other landing behaviors. Chapter 3 examines the variation observed in the landing kinematics of mallards, identifies the primary kinematic drivers of that variation, and detects differences in kinematic profile. Chapter 4 inspects the landing kinematics combined with the positions of all other waterfowl in the vicinity to test for the presence of obstacle avoidance behavior. / Doctor of Philosophy / Control of landing is an important ability for any flying animal. However, with the exception of perch landing, we know very little about how birds and other flyers land on a variety of different surfaces. Here, we aim to extend our knowledge in this area by focusing on how mallard ducks land on water. This dissertation addresses the following questions. Do mallards regulate landing speed and trajectory the same way as pigeons? At what speeds, angles, and postures do mallards land on water? Can mallards adjust landing behavior to avoid collisions with other birds on the water surface? Chapter 2 determines how mallards regulate landings and how it is similar and different from pigeons and several other flyers. Chapter 3 describes the speeds, angles, and postures used by mallards to land on water. In addition, this chapter finds evidence for at least two different categories of landing performed by mallards. Chapter 4 provides evidence that mallards avoid situations in which a collision with another bird is likely. However, it is unclear if this is an active choice made by the mallard or due to other circumstances related to the landing behavior. Overall, this dissertation illustrates how the landing behavior of mallards is similar to what has been documented in other animals. However there are significant differences such as higher impact speeds, and shallower angles. Both of which are likely related to the ability of water to absorb a greater amount of the impact forces than a perch or the ground would.
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