User:Afm814/sandbox

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Draft: Hawk/Goose Effect[edit]

Lead Section:[edit]

I have no major issues with the article's lead.. As I come across larger topics that I intend to write about, I will summarize them and add them to the existing lead section. Upon completion of the supporting paragraphs, I will take another look at the lead section and make necessary changes, including changes to sentence structure.

The Direction of Movement Determines Hawk or Goose

Just like what is seen in Tinbergen’s 1951 experiment[1] the same figure is used to represent both the hawk and the goose in most hawk/goose experiments. When moving the figure in one direction, it represents a shape resembling a hawk (short neck long tail) while moving the figure in the opposite direction resembles a goose (long neck short tail)[2] . The perceived identity influences how the figure is perceived to move, such that the figure is assumed to be a hawk or a goose based on the on movement in direction of the head and the protrusion of the wings (short on one end and a long one on the other)[2].

A Brief History Pointing to Innate Behavior:

Friedrich Goethe was the first to perform experiments using silhouettes (1937, 1940). He found that naive Capercaillie exhibited a greater fear response to a silhouette of a hawk than to a circle, a triangle, or a generalized bird silhouette, but that this varied with both species, and prior experience [3]. Tinbergen, in 1951, pointed out that he was inspired by Oscar Heinroth's observations in which he stated that domestic chickens are more alarmed by short necked birds, over long necks ones [1]. This provoked Konrad Lorenz's and Nikolaas Tinbergen's to design and explore the Hawk/Goose effect. Konrad Lorenz and Nikolaas Tinbergen worked together in 1937 on experiments that were each published separately in 1939 and 1948 [4]. Lorenz and Tinbergen reported differences in their experiments with Lorenz arguing that a short neck only elicits a flight response in turkeys [5], while Tinbergen claimed: “The reactions of young gallinaceous birds, ducks, and geese to a flying bird of prey are released by the sign-stimulus ‘short neck’ among others”[1] . Tinbergen published 2 papers in 1948 on the subject [4]. In 1951 Tinbergen continued to report on what he described as innate behavior and stated that goslings display a fear response when an ambiguous goose-hawk figure was moved in the "hawk" direction, implying that goslings associate a particular shape with a particular direction of motion [1].

There have been a number of other studies supporting Tinbergen's short neck hypothesis[4] with some as recent as the 1980s such as Helmut C. Mueller and Patricia G. Parker, in 1980, demonstrated that naive mallard ducklings shows a grater variance in heart rate to the hawk models over the goose models [6]. They concluded that cardiac response is an excellent measurement of fear and controlled for learned behavior by maintaining the ducklings in a brooder until they were transported to their laboratory in opaque containers[6] and in 1982, Elizabeth L. Moore and Helmut C. Mueller found that a chick’s heart rate was of greater variance in response to the hawk model without prior, pertinent experience, suggesting a greater innate fear response to the hawk over the goose[7]. It should be noted that obvious behavioral responses to fear were not identified [7].

Most ethologists today believe that the behaviors elicited by the hawk/goose modals are socially reinforced or are more likely to support the Schleit's “selective habituation hypothesis".

A Brief History Pointing to Learned Behavior

After discrepencies between the results of Konrad Lorenz and Nikolaas Tinbergen, Hirsch et al. in 1955, concluded that Tinbergen's hypothesis could not be replicated in Leghorn Chickens [8] In 1960, McNiven, concluded that Tinbergen's hypothesis could not be replicated in ducklings [9] and in an attempt to replicate Tinbergen's experiments, Schleit's, in 1961 believed Tinbergen falsified his data[4]. Like the experiments that still support Tinbergan's short neck hypothesis, there are many experiments that do not [4]

Controversy

Konrad Lorenz met Nikolaas Tinbergen in 1936 at the Leiden Instinct Symposium[4] . In 1937, Tinbergen and Lorenz worked on two projects, an experimental analysis of egg-rolling behavior in the greylag goose, supporting the fixed action pattern hypothesis, and the responses of various young birds to cardboard models of raptors and other flying birds.

Based on Oscar Heinroth’s hypothesis that domestic chickens showed the greatest amount of fear towards long tailed, short necked birds flying overhead [1], Tinbergen and Lorenz designed silhouettes that could represent a hawk like figure if moved in one direction, or a goose like figure if moved in the other direction [1]. Tinbergen and Lorenz moved the models overhead of varies species of birds and recorded their responses[5].

Tinbergen believed that these experiments prove Heinroth’s hypothesis but Lorenz noted that the shape of the model did not seem to matter for all species except turkeys[5][1] . Lorenz pointed out that all other species presented alarm responses (fixating, alarm calling and marching off to cover), regardless of the model used and that “slow relative speed” of a flying object can elicit an anti-predator response [5]. Lorenz published his findings in 1937 while Tinbergen published in 1948[4] . Re-examination of the experiments were invoked due to the differences in results.

In 1955, Hirsch et al. presented that Tinbergen's hypothesis could not be replicated in Leghorn Chickens [7]. Schleidt, in 1961 did his best to replicate Tinbergen’s experiments using, free-ranging geese, ducks, and turkeys and found that regardless of the shape, these birds presented a fear response that diminished over a number of trials, pointing to the likelihood of habituation [10]. Schleidt did find evidence to support Lorenz’s “slow relative speed” findings[10] . A second experiment was performed by Schleidt in 1961 to determine if turkeys, who have never been exposed to a flying object, would support Tinbergen’s predisposition hypothesis and present a fear response the that hawk-shaped object in the hawk/goose model. Schleidt used 5 bronze turkeys that were raised indoors with no windows [11]. Schleidt’s results again, supported the “selective habituation hypothesis,” and not innate behavior [11]. Thus, the short neck hypothesis appears to have been falsified by Tinbergen [4].

One of the goose/hawk models as reported by Tinbergen. Moving it from right to left (in the direction of dashed arrow) produced no response, but moving it from left to right (in the direction of solid arrow) elicited the behavior.

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  1. ^ a b c d e f g Carmichael, Leonard (1952-04-18). "The Study of Instinct. N. Tinbergen. New York: Oxford Univ. Press, 1951. 228 pp. $7.00". Science. 115 (2990): 438–439. doi:10.1126/science.115.2990.438-a. ISSN 0036-8075.
  2. ^ a b Bernstein, L. J.; Cooper, L. A. (June 1997). "Direction of motion influences perceptual identification of ambiguous figures". Journal of Experimental Psychology. Human Perception and Performance. 23 (3): 721–737. ISSN 0096-1523. PMID 9180041.
  3. ^ Goethe, Friedrich (1937). "Beobachtungen und Erfahrungen bei Aufzucht von deutschem Auerwild". Deutche Jagd, 6 and 7.
  4. ^ a b c d e f g h Schleidt, Wolfgang; Shalter, Michael D.; Moura-Neto, Humberto (May 2011). "The hawk/goose story: the classical ethological experiments of Lorenz and Tinbergen, revisited". Journal of Comparative Psychology (Washington, D.C.: 1983). 125 (2): 121–133. doi:10.1037/a0022068. ISSN 1939-2087. PMID 21341906.
  5. ^ a b c d Lorenz, Konrad (1939). "Vergleichende verhaltensforschung". Verhandlungen der Deutschen Zoologischen Gesellschaft Zoologischer Anzeiger Supplementband,. 12: 69–102. {{cite journal}}: line feed character in |journal= at position 18 (help)CS1 maint: extra punctuation (link)
  6. ^ a b Mueller, Helmut C.; Parker, Patricia G. "Naive Ducklings Show Different Cardiac Response To Hawk Than To Goose Models". Behaviour. 74 (1): 101–112. doi:10.1163/156853980x00339.
  7. ^ a b c Moore, E. L.; Mueller, H. C. (September 1982). "Cardiac response of domestic chickens to hawk and goose models". Behavioural Processes. 7 (3): 255–258. doi:10.1016/0376-6357(82)90040-7. ISSN 0376-6357. PMID 24923185.
  8. ^ Hirsch, J., Lindley, R. H., & Tolman, E. C. (1955). "An experimental test of an alleged innate sign stimulus". Journal of Comparative and Physiological Psychology. 48(4): 278–280.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  9. ^ McNiven, M. (1960). ""Social releaser mechanism" in birds–a controlled replication of Tinbergen's study". Psychological Record. 10: 259–265.
  10. ^ a b Schleidt, W. M. (1961). "Über die Auslösung der Flucht vor Raubvögeln bei Truthühnern". Die Naturwissenschaften. 48: 141–142.
  11. ^ a b Schleidt, W. M. (1961). "Reaktionen von Truthühnern auf fliegende Raubvögel und Versuche zur Analyse ihres AAM's". Zeitschrift für Tierpsychologie. 18: 534–560.
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