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Behavioral enrichment

August 31, 2023

Not to be confused with Environmental enrichment.

Behavioral enrichment is an animal husbandry principle that seeks to enhance the quality of captive animal care by identifying and providing the environmental stimuli necessary for optimal psychological and physiological well-being.[1] Enrichment can either be active or passive, depending on whether it requires direct contact between the animal and the enrichment. A variety of enrichment techniques are used to create desired outcomes similar to an animal's individual and species' history. Each of the techniques used is intended to stimulate the animal's senses similarly to how they would be activated in the wild. Provided enrichment may be seen in the form of auditory, olfactory, habitat factors, food, research projects, training, and objects.[2]

An Asian elephant in a zoo manipulating a suspended ball provided as environmental enrichment

Purpose Edit

Environmental enrichment can improve the overall welfare of animals in captivity and create a habitat similar to what they would experience in their wild environment. It aims to maintain an animal's physical and psychological health by increasing the range or number of species-specific behaviors, increasing positive interaction with the captive environment, preventing or reducing the frequency of abnormal behaviors, such as stereotypies, and increasing the individual's ability to cope with the challenges of captivity.[3] Stereotypies are seen in captive animals due to stress and boredom. This includes pacing, self-harm, over-grooming, head-weaving, etc.[4]

Environmental enrichment can be offered to any animal in captivity, including:

Environmental enrichment can be beneficial to a wide range of vertebrates and invertebrates such as land mammals, marine mammals, and amphibians.[10] In the United States, specific regulations (Animal Welfare Act of 1966) must be followed for enrichment plans in order to guarantee, regulate, and provide appropriate living environments and stimulation for animals in captivity.[11] Moreover, the Association of Zoos and Aquariums (also known as the AZA), requires that animal husbandry and welfare be a main concern for those caring for animals in captivity.

Passive enrichment Edit

Passive enrichment provides sensory stimulation but no direct contact or control. This type of enrichment is commonly used for its potential to benefit several animals simultaneously as well as requiring limited direct animal contact.[12]

Visual enrichment Edit

Visual enrichment is typically provided by changing the layout of an animal's holding area. The type of visual enrichment can vary, from something as simple as adding pictures on walls to videotapes and television. Visual enrichment such as television can especially benefit animals housed in single cages.[13]

Mirrors are also a potential form of enrichment, specifically for animals that display an understanding of self-recognition, such as non-human primates. In addition to using mirrors to reflect the animal's own image, mirrors can also be angled so the animal is able to see normally out-of-sight areas of the holding area.[13]

Enclosures in modern zoos are often designed to facilitate environmental enrichment. For example, the Denver Zoo's exhibit Predator Ridge allows different African carnivores to be rotated among several enclosures, providing the animals with a differently sized environment.

Auditory enrichment Edit

In the wild, animals are exposed to a variety of sounds that they normally do not encounter in captivity. Auditory enrichment can be used to mimic the animal's natural habitat. Types of nature-based auditory enrichment include rain forest sounds and con-specific vocalizations.[13]

The most common form of auditory enrichment is music, whose principal stems primarily from its benefit to humans. The benefits of classical music have been widely studied in animals, from sows[14] to non-human primates.[15] Studies have also looked at various other genres, such as pop and rock, but their ability to provide effective enrichment remains inconclusive.[15][16][17] Most types of music that are selected for enrichment are based on human preferences, causing anthropomorphic biases that may not translate to other animals.[17] Therefore, music that is specifically attuned to the animal's auditory senses could be beneficial.[18] Species-specific sounds require further research to find what pitch, frequency, and range is most suitable for the animal.

Active enrichment Edit

 
Active enrichment during feeding session

Active enrichment often requires the animal to perform some sort of physical activity as well as direct interaction with the enrichment object. Active enrichment items can temporarily reduce stereotypic behaviors as their beneficial effects are usually limited to the short periods of active use.[12]

 
Inanimate tactile enrichment with burlap bag

Food-based enrichment Edit

Food-based enrichment is meant to mimic what a captive animal would do in the wild for food. This is extremely important because in the wild, animals are adapted to work hard for what they eat. A lot of time and energy is spent finding food, which is why this tactic is used to make it more challenging for the animal rather than just feeding it simple food.[19] Feeding enrichment techniques causes the animal to indulge in natural, active behaviors that allow for more stimulation and prevents boredom.[19] This form of enrichment forms active behaviors that can also help with not only a captive animal's mental health, but the animal's physical health.[19]

For example, food can be hidden and spread across an enclosure making the animal actively search for it. Other common manipulable tactile objects include rubber toys stuffed with treats. Instead of providing the food directly, foraging devices are useful in increasing the amount of searching and foraging of food, comparable to the amount of time they would spend in the wild.[13] Most food-based enrichment occurs in the context of searching for food, such as cracking open a nut or digging holes in tree trunks for worms.

Structural enrichment Edit

 
A structure built for baboons at the Oakland Zoo

Structural Enrichment is when objects are added to an enclosure to mimic an animal's natural habitat. These objects can be switched out occasionally or kept permanently.[20] The environment of captive animals should be switched frequently since their environment in the wild would bring on new objects and exploration. Research into what constitutes the most beneficial and appropriate forms of enrichment must be used when considering the provision of enrichment options, especially for species where natural-like settings may be difficult to achieve.[21] The animal should never become too familiar with their environment because that can cause boredom, no stimulation or stereotypical behavior.[20] Examples of this could be swings or climbing structures.[20] Stones have also been shown to encourage exploratory behavior in Japanese macaques. Interaction with the stones exhibited behaviors such as gathering, rolling in hands, rubbing, and carrying.[13]

Other common forms include cardboard, forage, and even the texture of the food (i.e. hard, smooth, cold, warm).[22]

Olfactory enrichment Edit

Olfactory enrichment can stimulate naturalistic behavior, enhance exploration, and reduce inactive behaviors.[23] Olfactory enrichment can be utilized by itself, paired with novel toys, or paired with food-based enrichment. This type of enrichment is most commonly used with species that commonly utilize their olfactory senses in the wild. Although highly beneficial, it is important for researchers to analyze the long-term effects of certain odors on captive animals. Odors can be scattered on a novel toy such as a ball or semi-randomly throughout an enclosure. Various forms of odors can include catnip, odor of conspecific, perfume, feces of a prey species, or spices.

Cognitive enrichment Edit

Cognitive enrichment is defined as, improving animal welfare by providing opportunities for captive animals to use cognitive skills for problem solving and providing limited control over some aspects of its environment.[24] In the wild, animals deal with ecological challenges in order to acquire the resources, such as food and shelter, that they require to survive.[25] These challenges arise from interactions with other animals, or through changes to their environment that require the individuals to exercise their cognitive ability and to improve their behavioral strategies.[25] Therefore, these challenges act as an important problem-solving element in the animals' day-to-day lives, and in-turn, increases their overall fitness.[25] The animal anticipates positive benefits from a challenging situation[26] which can directly affect its emotional processes.[27] Cognitive enrichment should be provided in addition to a diverse environment that is already structurally and socially enriched; it goes beyond the basic needs of the animals.[26]

Social enrichment Edit

Social enrichment can either involve housing a group of conspecifics or animals of different species that would naturally encounter each other in the wild. Social animals in particular (i.e. most primates, lions, flamingos, etc.), benefit from social enrichment because it has the positive effect of creating confidence in the group.[28] Social enrichment can encourage social behaviors that are seen in the wild, including feeding, foraging, defense, territoriality, reproduction, and courtship.[29]

Human-interaction enrichment Edit

The most common form of human-interaction enrichment is training. The human and animal interaction during training builds trust, and increases the animal's cooperation during clinical and research procedures. In addition, training sessions have been shown to benefit the welfare of both individually housed animals and communally housed animals by providing cognitive stimulation, increasing social play, decreasing inactivity, and mitigating social aggression during feeding.[30]

Assessing the success Edit

A range of methods can be used to assess which environmental enrichment should be provided. These are based on the premises that captive animals should perform behaviors in a similar way to those in the ethogram of their ancestral species,[31] animals should be allowed to perform the activities or interactions they prefer, i.e. preference test studies,[32] and animals should be allowed to perform those activities for which they are highly motivated, i.e. motivation studies.[33]

Environmental enrichment is a way to ensure that an animals natural and instinctual behaviors are kept and able to be passed and taught from one generation to the next. Enrichment techniques that encourage species specific behaviors, like those that are discovered in the wild, have been studied and found to help the process of reintroduction of endangered species into their natural habitats, as well as helping to create offspring with natural traits and behaviors.[34]

The main way the success of environmental enrichment can be measured is by recognizing the behavioral changes that occur from the techniques used to shape desired behaviors of the animal compared to the behaviors of those found in the wild.[35] Other ways that the success of environmental enrichment can be assessed quantitatively by a range of behavioral and physiological indicators of animal welfare. In addition to those listed above, behavioral indicators include the occurrence of abnormal behaviours (e.g. stereotypies),[36][37] cognitive bias studies,[38] and the effects of frustration.[39][40] Physiological indicators include heart rate,[41] corticosteroids,[42] immune function,[43] neurobiology,[44] eggshell quality[45] and thermography.[46]

It is very difficult for zookeepers to measure the effectiveness of enrichment in terms of the stress due to the fact that animals that are found in zoos are oftentimes on display and presented with very abnormal conditions that can cause uneasiness and stress. Measuring enrichment in terms of reproduction is easier because of our ability to record offspring numbers and fertility. By making necessary environment changes and providing mental stimulation, animals in captivity have been seen to reproduce at a more similar rate to their wild ancestors in comparison to those provided with less behavioral and environmental enrichment.[35]

Issues and concerns Edit

Habituation Edit

Although environmental enrichment can provide sensory and social stimulations, it can also have limited efficacy if not changed frequently. Animals can become habituated to environmental enrichments, showing positive behaviors at onset of exposure and progressively declining with time. Environmental enrichments are effective primarily because it offers novelty stimuli, making the animal's daily routines less predictable, as would be in the wild. Therefore, maintaining novelty is important for the efficacy of the enrichment. Frequently changing the type of environmental enrichment will help prevent habituation.[7]

Training Edit

Usage of more highly advanced enrichment devices, such as computerized devices, requires training. This can lead to issues as training often consists of food as a reward. While food encourages the animal to participate with the device, the animal could associate the device with food. As a result, the interaction with the enrichment would bring about behaviors that are associated with training instead of the desired playful and voluntary behaviors.[47]

Time and resources Edit

The process of producing and providing environmental enrichment usually require a large allocation of time and resources. In a survey,[48] "time taken by animal care staff to complete other tasks" was the most significant factor influencing environmental enrichment provisions and scheduling. Therefore, it is important to develop appropriate environmental enrichment programs that can be effectively carried out with the size of staff and time available.

References Edit

  1. ^ Shepherdson, D.J. (1998) “Tracing the path of environmental enrichment in zoos” in Shepherdson, D.J., Mellen, J.D. and Hutchins, M. (1998) Second Nature – Environmental Enrichment for Captive Animals, 1st Edition, Smithsonian Chupapo stitution Press, London, UK, pp. 1–12.
  2. ^ . nationalzoo.si.edu. Archived from the original on 2016-04-01. Retrieved 2016-03-29.
  3. ^ "Animal Enrichment :: Saint Louis Zoo". www.stlzoo.org. Retrieved 2018-04-11.
  4. ^ "Towards an Understanding of Stereotypic Behaviour in Laboratory Macaques". awionline.org. Retrieved 2019-02-27.
  5. ^ Maple TL (2007). "Toward a science of welfare for animals in the zoo". Journal of Applied Animal Welfare Science. 10 (1): 63–70. CiteSeerX 10.1.1.560.8948. doi:10.1080/10888700701277659. PMID 17484680. S2CID 32358898.
  6. ^ Ron Hines, D.V.M. (2006-04-24). "Synopsis of the Environmental Enrichment Program of 2nd Chance Sanctuary". from the original on 10 June 2006. Retrieved 2006-06-11.
  7. ^ a b Bowman A, Dowell FJ, Evans NP (March 2017). "The effect of different genres of music on the stress levels of kennelled dogs" (PDF). Physiology & Behavior. 171: 207–215. doi:10.1016/j.physbeh.2017.01.024. PMID 28093218. S2CID 207377805.
  8. ^ Sherwin, C.M. (2007). "Validating refinements to laboratory housing: asking the animals". Retrieved April 9, 2013.
  9. ^ Hubrecht R (1995). . In Smith CP, Taylor V (eds.). Environmental Enrichment Information Resources for Laboratory Animals. Potters Bar, Herts.: Universities Federation for Animal Welfare (UFAW). pp. 49–62. Archived from the original on 4 April 2002.
  10. ^ . www.ammpa.org. Archived from the original on 2016-03-29. Retrieved 2016-03-29.
  11. ^ Kulpa-Eddy JA, Taylor S, Adams KM (2005-01-01). "USDA perspective on environmental enrichment for animals". ILAR Journal. 46 (2): 83–94. doi:10.1093/ilar.46.2.83. PMID 15775018.
  12. ^ a b Meade TM, Hutchinson E, Krall C, Watson J (September 2014). "Use of an aquarium as a novel enrichment item for singly housed rhesus macaques (Macaca mulatta)". Journal of the American Association for Laboratory Animal Science. 53 (5): 472–7. PMC 4181688. PMID 25255069.
  13. ^ a b c d e Lutz CK, Novak MA (2005). "Environmental enrichment for nonhuman primates: theory and application". ILAR Journal. 46 (2): 178–91. doi:10.1093/ilar.46.2.178. PMID 15775027.
  14. ^ Silva FR, Miranda KO, Piedade SM, Salgado DD (April 2017). "Effect of Auditory Enrichment (Music) in Pregnant Sows Welfare". Engenharia Agrícola. 37 (2): 215–225. doi:10.1590/1809-4430-eng.agric.v37n2p215-225/2017.
  15. ^ a b Wallace EK, Altschul D, Körfer K, Benti B, Kaeser A, Lambeth S, Waller BM, Slocombe KE (2017-03-29). "Is music enriching for group-housed captive chimpanzees (Pan troglodytes)?". PLOS ONE. 12 (3): e0172672. Bibcode:2017PLoSO..1272672W. doi:10.1371/journal.pone.0172672. PMC 5371285. PMID 28355212.
  16. ^ Bowman A, Dowell FJ, Evans NP (March 2017). "The effect of different genres of music on the stress levels of kennelled dogs" (PDF). Physiology & Behavior. 171: 207–215. doi:10.1016/j.physbeh.2017.01.024. PMID 28093218. S2CID 207377805.
  17. ^ a b Ritvo, Sarah E.; MacDonald, Suzanne E. (2016). "Music as enrichment for Sumatran orangutans (Pongo abelii)". Journal of Zoo and Aquarium Research. 4 (3). doi:10.19227/jzar.v4i3.231.
  18. ^ Kędzierski W, Janczarek I, Stachurska A, Wilk I (2017). "Massage or music meant to be relaxing, result in lowering salivary cortisol concentration in race horses". Pferdeheilkunde Equine Medicine. 33 (2): 146–151. doi:10.21836/pem20170206. S2CID 57651310.
  19. ^ a b c Orangutan Project (2015). "Orangutan Project Enrichment" (PDF). {{cite journal}}: Cite journal requires |journal= (help)
  20. ^ a b c Orangutan Project (2015). "Orangutan Project Enrichment" (PDF). {{cite journal}}: Cite journal requires |journal= (help)
  21. ^ Jones, N.A.R.; Webster, M.; Salvanes, A.G.V. (2021). "Physical enrichment research for captive fish: Time to focus on the DETAILS". Journal of Fish Biology. 99 (3): 704–725. doi:10.1111/jfb.14773. hdl:10023/23362. PMID 33942889. S2CID 233719781.
  22. ^ "Enrichment 101: Environment, Enrichment, & Education". www.arkanimals.com. Retrieved 2018-03-28.
  23. ^ Clark F, King AJ (2008). Chemical Signals in Vertebrates 11. Springer, New York, NY. pp. 391–398. doi:10.1007/978-0-387-73945-8_37. ISBN 9780387739441.
  24. ^ Clark, Fay E. (November 2011). "Great ape cognition and captive care: Can cognitive challenges enhance well-being?". Applied Animal Behaviour Science. 135 (1–2): 1–12. doi:10.1016/j.applanim.2011.10.010.
  25. ^ a b c Meehan, Cheryl L.; Mench, Joy A. (February 2007). "The challenge of challenge: Can problem solving opportunities enhance animal welfare?". Applied Animal Behaviour Science. 102 (3–4): 246–261. doi:10.1016/j.applanim.2006.05.031.
  26. ^ a b Boissy, Alain; Manteuffel, Gerhard; Jensen, Margit Bak; Moe, Randi Oppermann; Spruijt, Berry; Keeling, Linda J.; Winckler, Christoph; Forkman, Björn; Dimitrov, Ivan; Langbein, Jan; Bakken, Morten (October 2007). "Assessment of positive emotions in animals to improve their welfare". Physiology & Behavior. 92 (3): 375–397. doi:10.1016/j.physbeh.2007.02.003. PMID 17428510. S2CID 10730923.
  27. ^ Meyer, Susann; Puppe, Birger; Langbein, Jan (November 2010). "[Cognitive enrichment in zoo and farm animals--implications for animal behaviour and welfare]". Berliner und Munchener Tierarztliche Wochenschrift. 123 (11–12): 446–456. ISSN 0005-9366. PMID 21141273.
  28. ^ "Environmental Enrichment - Colchester Zoo". Retrieved 2018-03-29.
  29. ^ . littlerockzoo.com. Archived from the original on 2018-04-12. Retrieved 2018-03-29.
  30. ^ Baker KC (May 2004). "Benefits of Positive Human Interaction for Socially-Housed Chimpanzees". Animal Welfare. 13 (2): 239–245. doi:10.1017/S0962728600026981. PMC 2875797. PMID 20505791.
  31. ^ Dawkins MS (1989). "Time budgets in red junglefowl as a baseline for the assessment of welfare in domestic-fowl". Applied Animal Behaviour Science. 24: 77–80. doi:10.1016/0168-1591(89)90126-3.
  32. ^ Sherwin CM, Glen EF (2003). "Cage colour preferences and effects of home-cage colour on anxiety in laboratory mice". Animal Behaviour. 66 (6): 1085–1092. doi:10.1006/anbe.2003.2286. S2CID 53191108.
  33. ^ Sherwin CM (2004). "The motivation of group-housed laboratory mice, Mus musculus, for additional space". Animal Behaviour. 67 (4): 711–717. doi:10.1016/j.anbehav.2003.08.018. S2CID 53181481.
  34. ^ Shepherdson O (1994-01-01). "The role of environmental enrichment in the captive breeding and reintroduction of endangered species". In Olney PJ, Mace GM, Feistner AT (eds.). Creative Conservation. Springer Netherlands. pp. 167–177. doi:10.1007/978-94-011-0721-1_8. ISBN 9789401043113.
  35. ^ a b Moberg GP, Mench JA (2000-01-01). The Biology of Animal Stress: Basic Principles and Implications for Animal Welfare. CABI. ISBN 9780851999302.
  36. ^ Mason GJ (1991). "Stereotypies - A critical review". Animal Behaviour. 41 (6): 1015–1037. doi:10.1016/S0003-3472(05)80640-2. hdl:10214/4622. S2CID 53187334.
  37. ^ Claes A, Attur Shanmugam A, Jensen P (2010). "Habituation to environmental enrichment in captive Sloth Bears—effect on stereotypies". Zoo Biology. 29 (6): 705–714. doi:10.1002/zoo.20301. PMID 20069629.
  38. ^ Mendl M, Burman OH, Parker RM, Paul ES (2009). "Cognitive bias as an indicator of animal emotion and welfare: Emerging evidence and underlying mechanisms". Applied Animal Behaviour Science. 118 (3–4): 161–181. doi:10.1016/j.applanim.2009.02.023.
  39. ^ Duncan IJ, Wood-Gush DG (1971). "Frustration and aggression in the domestic fowl". Animal Behaviour. 19 (3): 500–504. doi:10.1016/S0003-3472(71)80104-5. PMID 5167834.
  40. ^ Zimmerman PH, Lundberg A, Keeling LJ, Koene P (2003). "The effect of an audience on the gakel-call and other frustration behaviours in the laying hen (Gallus gallus domesticus)". Animal Welfare. 12 (3): 315–326. doi:10.1017/S0962728600025823. S2CID 145114602.
  41. ^ Kemppinen N, Hau J, Meller A, Mauranen K, Kohila T, Nevalainen T (2010). "Impact of aspen furniture and restricted feeding on activity, blood pressure, heart rate and faecal corticosterone and immunoglobulin A excretion in rats (Rattus norvegicus) housed in individually ventilated cages". Laboratory Animals. 44 (2): 104–112. doi:10.1258/la.2009.009058. PMID 19854757. S2CID 17743686.
  42. ^ Laws N, Ganswindt A, Heistermann M, Harris M, Harris S, Sherwin C (2007). "A case study: fecal corticosteroid and behavior as indicators of welfare during relocation of an asian elephant". Journal of Applied Animal Welfare Science. 10 (4): 349–358. doi:10.1080/10888700701555600. PMID 17970634. S2CID 46617133.
  43. ^ Martin LB, Kidd L, Liebl AL, Coon CA (August 2011). "Captivity induces hyper-inflammation in the house sparrow (Passer domesticus)". The Journal of Experimental Biology. 214 (Pt 15): 2579–85. doi:10.1242/jeb.057216. PMID 21753052. S2CID 31326602.
  44. ^ Lewis MH, Presti MF, Lewis JB, Turner CA (2006). "The neurobiology of stereotypy I: Environmental complexity.". In Mason G, Rushen J (eds.). Stereotypic Animal Behaviour: Fundamentals and Applications to Welfare. CABI. pp. 190–226. doi:10.1079/9780851990040.0190. ISBN 9780851990040.
  45. ^ Hughes BO, Gilbert AB, Brown MF (1986). "Categorisation and causes of abnormal egg shells: relationship with stress". British Poultry Science. 27 (2): 325–337. doi:10.1080/00071668608416885. PMID 3742268.
  46. ^ Wilcox CS, Patterson J, Cheng HW (2009). "Use of thermography to screen for subclinical bumblefoot in poultry". Poultry Science. 88 (6): 1176–1180. doi:10.3382/ps.2008-00446. PMID 19439627. S2CID 42216865.
  47. ^ French F, Mancini C, Sharp H (April 2018). "High tech cognitive and acoustic enrichment for captive elephants" (PDF). Journal of Neuroscience Methods. 300: 173–183. doi:10.1016/j.jneumeth.2017.09.009. PMID 28951175. S2CID 4548453.
  48. ^ Hoy JM, Murray PJ, Tribe A (2010). "Thirty years later: enrichment practices for captive mammals". Zoo Biology. 29 (3): 303–16. doi:10.1002/zoo.20254. PMID 19434736.

External links Edit

 
Wikimedia Commons has media related to Behavioral enrichment.
  • Laboratory Animal Refinement Database
  • Animals in Laboratories (awionline.org)
  • 3R Research Foundation Switzerland (forschung3R.ch)
  • Environmental Enrichment, Animal Welfare Information Center
  • The Shape of Enrichment selected articles on enrichment for zoo animals.

August 31, 2023
behavioral, enrichment, confused, with, environmental, enrichment, animal, husbandry, principle, that, seeks, enhance, quality, captive, animal, care, identifying, providing, environmental, stimuli, necessary, optimal, psychological, physiological, well, being. Not to be confused with Environmental enrichment Behavioral enrichment is an animal husbandry principle that seeks to enhance the quality of captive animal care by identifying and providing the environmental stimuli necessary for optimal psychological and physiological well being 1 Enrichment can either be active or passive depending on whether it requires direct contact between the animal and the enrichment A variety of enrichment techniques are used to create desired outcomes similar to an animal s individual and species history Each of the techniques used is intended to stimulate the animal s senses similarly to how they would be activated in the wild Provided enrichment may be seen in the form of auditory olfactory habitat factors food research projects training and objects 2 An Asian elephant in a zoo manipulating a suspended ball provided as environmental enrichment Contents 1 Purpose 2 Passive enrichment 2 1 Visual enrichment 2 2 Auditory enrichment 3 Active enrichment 3 1 Food based enrichment 3 2 Structural enrichment 3 3 Olfactory enrichment 3 4 Cognitive enrichment 3 5 Social enrichment 3 6 Human interaction enrichment 4 Assessing the success 5 Issues and concerns 5 1 Habituation 5 2 Training 5 3 Time and resources 6 References 7 External linksPurpose EditEnvironmental enrichment can improve the overall welfare of animals in captivity and create a habitat similar to what they would experience in their wild environment It aims to maintain an animal s physical and psychological health by increasing the range or number of species specific behaviors increasing positive interaction with the captive environment preventing or reducing the frequency of abnormal behaviors such as stereotypies and increasing the individual s ability to cope with the challenges of captivity 3 Stereotypies are seen in captive animals due to stress and boredom This includes pacing self harm over grooming head weaving etc 4 Environmental enrichment can be offered to any animal in captivity including Animals in zoos and related facilities 5 Animals in sanctuaries 6 Animals in shelters and adoption centers 7 Animals used for research 8 Animals used for companionship e g dogs 9 cats rabbits etc Environmental enrichment can be beneficial to a wide range of vertebrates and invertebrates such as land mammals marine mammals and amphibians 10 In the United States specific regulations Animal Welfare Act of 1966 must be followed for enrichment plans in order to guarantee regulate and provide appropriate living environments and stimulation for animals in captivity 11 Moreover the Association of Zoos and Aquariums also known as the AZA requires that animal husbandry and welfare be a main concern for those caring for animals in captivity Passive enrichment EditPassive enrichment provides sensory stimulation but no direct contact or control This type of enrichment is commonly used for its potential to benefit several animals simultaneously as well as requiring limited direct animal contact 12 Visual enrichment Edit Visual enrichment is typically provided by changing the layout of an animal s holding area The type of visual enrichment can vary from something as simple as adding pictures on walls to videotapes and television Visual enrichment such as television can especially benefit animals housed in single cages 13 Mirrors are also a potential form of enrichment specifically for animals that display an understanding of self recognition such as non human primates In addition to using mirrors to reflect the animal s own image mirrors can also be angled so the animal is able to see normally out of sight areas of the holding area 13 Enclosures in modern zoos are often designed to facilitate environmental enrichment For example the Denver Zoo s exhibit Predator Ridge allows different African carnivores to be rotated among several enclosures providing the animals with a differently sized environment Auditory enrichment Edit In the wild animals are exposed to a variety of sounds that they normally do not encounter in captivity Auditory enrichment can be used to mimic the animal s natural habitat Types of nature based auditory enrichment include rain forest sounds and con specific vocalizations 13 The most common form of auditory enrichment is music whose principal stems primarily from its benefit to humans The benefits of classical music have been widely studied in animals from sows 14 to non human primates 15 Studies have also looked at various other genres such as pop and rock but their ability to provide effective enrichment remains inconclusive 15 16 17 Most types of music that are selected for enrichment are based on human preferences causing anthropomorphic biases that may not translate to other animals 17 Therefore music that is specifically attuned to the animal s auditory senses could be beneficial 18 Species specific sounds require further research to find what pitch frequency and range is most suitable for the animal Active enrichment Edit nbsp Active enrichment during feeding sessionActive enrichment often requires the animal to perform some sort of physical activity as well as direct interaction with the enrichment object Active enrichment items can temporarily reduce stereotypic behaviors as their beneficial effects are usually limited to the short periods of active use 12 nbsp Inanimate tactile enrichment with burlap bagFood based enrichment Edit Food based enrichment is meant to mimic what a captive animal would do in the wild for food This is extremely important because in the wild animals are adapted to work hard for what they eat A lot of time and energy is spent finding food which is why this tactic is used to make it more challenging for the animal rather than just feeding it simple food 19 Feeding enrichment techniques causes the animal to indulge in natural active behaviors that allow for more stimulation and prevents boredom 19 This form of enrichment forms active behaviors that can also help with not only a captive animal s mental health but the animal s physical health 19 For example food can be hidden and spread across an enclosure making the animal actively search for it Other common manipulable tactile objects include rubber toys stuffed with treats Instead of providing the food directly foraging devices are useful in increasing the amount of searching and foraging of food comparable to the amount of time they would spend in the wild 13 Most food based enrichment occurs in the context of searching for food such as cracking open a nut or digging holes in tree trunks for worms Structural enrichment Edit nbsp A structure built for baboons at the Oakland ZooStructural Enrichment is when objects are added to an enclosure to mimic an animal s natural habitat These objects can be switched out occasionally or kept permanently 20 The environment of captive animals should be switched frequently since their environment in the wild would bring on new objects and exploration Research into what constitutes the most beneficial and appropriate forms of enrichment must be used when considering the provision of enrichment options especially for species where natural like settings may be difficult to achieve 21 The animal should never become too familiar with their environment because that can cause boredom no stimulation or stereotypical behavior 20 Examples of this could be swings or climbing structures 20 Stones have also been shown to encourage exploratory behavior in Japanese macaques Interaction with the stones exhibited behaviors such as gathering rolling in hands rubbing and carrying 13 Other common forms include cardboard forage and even the texture of the food i e hard smooth cold warm 22 Olfactory enrichment Edit Olfactory enrichment can stimulate naturalistic behavior enhance exploration and reduce inactive behaviors 23 Olfactory enrichment can be utilized by itself paired with novel toys or paired with food based enrichment This type of enrichment is most commonly used with species that commonly utilize their olfactory senses in the wild Although highly beneficial it is important for researchers to analyze the long term effects of certain odors on captive animals Odors can be scattered on a novel toy such as a ball or semi randomly throughout an enclosure Various forms of odors can include catnip odor of conspecific perfume feces of a prey species or spices Cognitive enrichment Edit Cognitive enrichment is defined as improving animal welfare by providing opportunities for captive animals to use cognitive skills for problem solving and providing limited control over some aspects of its environment 24 In the wild animals deal with ecological challenges in order to acquire the resources such as food and shelter that they require to survive 25 These challenges arise from interactions with other animals or through changes to their environment that require the individuals to exercise their cognitive ability and to improve their behavioral strategies 25 Therefore these challenges act as an important problem solving element in the animals day to day lives and in turn increases their overall fitness 25 The animal anticipates positive benefits from a challenging situation 26 which can directly affect its emotional processes 27 Cognitive enrichment should be provided in addition to a diverse environment that is already structurally and socially enriched it goes beyond the basic needs of the animals 26 Social enrichment Edit Social enrichment can either involve housing a group of conspecifics or animals of different species that would naturally encounter each other in the wild Social animals in particular i e most primates lions flamingos etc benefit from social enrichment because it has the positive effect of creating confidence in the group 28 Social enrichment can encourage social behaviors that are seen in the wild including feeding foraging defense territoriality reproduction and courtship 29 Human interaction enrichment Edit The most common form of human interaction enrichment is training The human and animal interaction during training builds trust and increases the animal s cooperation during clinical and research procedures In addition training sessions have been shown to benefit the welfare of both individually housed animals and communally housed animals by providing cognitive stimulation increasing social play decreasing inactivity and mitigating social aggression during feeding 30 Assessing the success EditA range of methods can be used to assess which environmental enrichment should be provided These are based on the premises that captive animals should perform behaviors in a similar way to those in the ethogram of their ancestral species 31 animals should be allowed to perform the activities or interactions they prefer i e preference test studies 32 and animals should be allowed to perform those activities for which they are highly motivated i e motivation studies 33 Environmental enrichment is a way to ensure that an animals natural and instinctual behaviors are kept and able to be passed and taught from one generation to the next Enrichment techniques that encourage species specific behaviors like those that are discovered in the wild have been studied and found to help the process of reintroduction of endangered species into their natural habitats as well as helping to create offspring with natural traits and behaviors 34 The main way the success of environmental enrichment can be measured is by recognizing the behavioral changes that occur from the techniques used to shape desired behaviors of the animal compared to the behaviors of those found in the wild 35 Other ways that the success of environmental enrichment can be assessed quantitatively by a range of behavioral and physiological indicators of animal welfare In addition to those listed above behavioral indicators include the occurrence of abnormal behaviours e g stereotypies 36 37 cognitive bias studies 38 and the effects of frustration 39 40 Physiological indicators include heart rate 41 corticosteroids 42 immune function 43 neurobiology 44 eggshell quality 45 and thermography 46 It is very difficult for zookeepers to measure the effectiveness of enrichment in terms of the stress due to the fact that animals that are found in zoos are oftentimes on display and presented with very abnormal conditions that can cause uneasiness and stress Measuring enrichment in terms of reproduction is easier because of our ability to record offspring numbers and fertility By making necessary environment changes and providing mental stimulation animals in captivity have been seen to reproduce at a more similar rate to their wild ancestors in comparison to those provided with less behavioral and environmental enrichment 35 Issues and concerns EditHabituation Edit Although environmental enrichment can provide sensory and social stimulations it can also have limited efficacy if not changed frequently Animals can become habituated to environmental enrichments showing positive behaviors at onset of exposure and progressively declining with time Environmental enrichments are effective primarily because it offers novelty stimuli making the animal s daily routines less predictable as would be in the wild Therefore maintaining novelty is important for the efficacy of the enrichment Frequently changing the type of environmental enrichment will help prevent habituation 7 Training Edit Usage of more highly advanced enrichment devices such as computerized devices requires training This can lead to issues as training often consists of food as a reward While food encourages the animal to participate with the device the animal could associate the device with food As a result the interaction with the enrichment would bring about behaviors that are associated with training instead of the desired playful and voluntary behaviors 47 Time and resources Edit The process of producing and providing environmental enrichment usually require a large allocation of time and resources In a survey 48 time taken by animal care staff to complete other tasks was the most significant factor influencing environmental enrichment provisions and scheduling Therefore it is important to develop appropriate environmental enrichment programs that can be effectively carried out with the size of staff and time available References Edit Shepherdson D J 1998 Tracing the path of environmental enrichment in zoos in Shepherdson D J Mellen J D and Hutchins M 1998 Second Nature Environmental Enrichment for Captive Animals 1st Edition Smithsonian Chupapo stitution Press London UK pp 1 12 Animal Enrichment National Zoo nationalzoo si edu Archived from the original on 2016 04 01 Retrieved 2016 03 29 Animal Enrichment Saint Louis Zoo www stlzoo org Retrieved 2018 04 11 Towards an Understanding of Stereotypic Behaviour in Laboratory Macaques awionline org Retrieved 2019 02 27 Maple TL 2007 Toward a science of welfare for animals in the zoo Journal of Applied Animal Welfare Science 10 1 63 70 CiteSeerX 10 1 1 560 8948 doi 10 1080 10888700701277659 PMID 17484680 S2CID 32358898 Ron Hines D V M 2006 04 24 Synopsis of the Environmental Enrichment Program of 2nd Chance Sanctuary Archived from the original on 10 June 2006 Retrieved 2006 06 11 a b Bowman A Dowell FJ Evans NP March 2017 The effect of different genres of music on the stress levels of kennelled dogs PDF Physiology amp Behavior 171 207 215 doi 10 1016 j physbeh 2017 01 024 PMID 28093218 S2CID 207377805 Sherwin C M 2007 Validating refinements to laboratory housing asking the animals Retrieved April 9 2013 Hubrecht R 1995 Dogs and dog housing In Smith CP Taylor V eds Environmental Enrichment Information Resources for Laboratory Animals Potters Bar Herts Universities Federation for Animal Welfare UFAW pp 49 62 Archived from the original on 4 April 2002 Alliance of Marine Mammal Parks and Aquariums www ammpa org Archived from the original on 2016 03 29 Retrieved 2016 03 29 Kulpa Eddy JA Taylor S Adams KM 2005 01 01 USDA perspective on environmental enrichment for animals ILAR Journal 46 2 83 94 doi 10 1093 ilar 46 2 83 PMID 15775018 a b Meade TM Hutchinson E Krall C Watson J September 2014 Use of an aquarium as a novel enrichment item for singly housed rhesus macaques Macaca mulatta Journal of the American Association for Laboratory Animal Science 53 5 472 7 PMC 4181688 PMID 25255069 a b c d e Lutz CK Novak MA 2005 Environmental enrichment for nonhuman primates theory and application ILAR Journal 46 2 178 91 doi 10 1093 ilar 46 2 178 PMID 15775027 Silva FR Miranda KO Piedade SM Salgado DD April 2017 Effect of Auditory Enrichment Music in Pregnant Sows Welfare Engenharia Agricola 37 2 215 225 doi 10 1590 1809 4430 eng agric v37n2p215 225 2017 a b Wallace EK Altschul D Korfer K Benti B Kaeser A Lambeth S Waller BM Slocombe KE 2017 03 29 Is music enriching for group housed captive chimpanzees Pan troglodytes PLOS ONE 12 3 e0172672 Bibcode 2017PLoSO 1272672W doi 10 1371 journal pone 0172672 PMC 5371285 PMID 28355212 Bowman A Dowell FJ Evans NP March 2017 The effect of different genres of music on the stress levels of kennelled dogs PDF Physiology amp Behavior 171 207 215 doi 10 1016 j physbeh 2017 01 024 PMID 28093218 S2CID 207377805 a b Ritvo Sarah E MacDonald Suzanne E 2016 Music as enrichment for Sumatran orangutans Pongo abelii Journal of Zoo and Aquarium Research 4 3 doi 10 19227 jzar v4i3 231 Kedzierski W Janczarek I Stachurska A Wilk I 2017 Massage or music meant to be relaxing result in lowering salivary cortisol concentration in race horses Pferdeheilkunde Equine Medicine 33 2 146 151 doi 10 21836 pem20170206 S2CID 57651310 a b c Orangutan Project 2015 Orangutan Project Enrichment PDF a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help a b c Orangutan Project 2015 Orangutan Project Enrichment PDF a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help Jones N A R Webster M Salvanes A G V 2021 Physical enrichment research for captive fish Time to focus on the DETAILS Journal of Fish Biology 99 3 704 725 doi 10 1111 jfb 14773 hdl 10023 23362 PMID 33942889 S2CID 233719781 Enrichment 101 Environment Enrichment amp Education www arkanimals com Retrieved 2018 03 28 Clark F King AJ 2008 Chemical Signals in Vertebrates 11 Springer New York NY pp 391 398 doi 10 1007 978 0 387 73945 8 37 ISBN 9780387739441 Clark Fay E November 2011 Great ape cognition and captive care Can cognitive challenges enhance well being Applied Animal Behaviour Science 135 1 2 1 12 doi 10 1016 j applanim 2011 10 010 a b c Meehan Cheryl L Mench Joy A February 2007 The challenge of challenge Can problem solving opportunities enhance animal welfare Applied Animal Behaviour Science 102 3 4 246 261 doi 10 1016 j applanim 2006 05 031 a b Boissy Alain Manteuffel Gerhard Jensen Margit Bak Moe Randi Oppermann Spruijt Berry Keeling Linda J Winckler Christoph Forkman Bjorn Dimitrov Ivan Langbein Jan Bakken Morten October 2007 Assessment of positive emotions in animals to improve their welfare Physiology amp Behavior 92 3 375 397 doi 10 1016 j physbeh 2007 02 003 PMID 17428510 S2CID 10730923 Meyer Susann Puppe Birger Langbein Jan November 2010 Cognitive enrichment in zoo and farm animals implications for animal behaviour and welfare Berliner und Munchener Tierarztliche Wochenschrift 123 11 12 446 456 ISSN 0005 9366 PMID 21141273 Environmental Enrichment Colchester Zoo Retrieved 2018 03 29 Social Enrichment littlerockzoo com Archived from the original on 2018 04 12 Retrieved 2018 03 29 Baker KC May 2004 Benefits of Positive Human Interaction for Socially Housed Chimpanzees Animal Welfare 13 2 239 245 doi 10 1017 S0962728600026981 PMC 2875797 PMID 20505791 Dawkins MS 1989 Time budgets in red junglefowl as a baseline for the assessment of welfare in domestic fowl Applied Animal Behaviour Science 24 77 80 doi 10 1016 0168 1591 89 90126 3 Sherwin CM Glen EF 2003 Cage colour preferences and effects of home cage colour on anxiety in laboratory mice Animal Behaviour 66 6 1085 1092 doi 10 1006 anbe 2003 2286 S2CID 53191108 Sherwin CM 2004 The motivation of group housed laboratory mice Mus musculus for additional space Animal Behaviour 67 4 711 717 doi 10 1016 j anbehav 2003 08 018 S2CID 53181481 Shepherdson O 1994 01 01 The role of environmental enrichment in the captive breeding and reintroduction of endangered species In Olney PJ Mace GM Feistner AT eds Creative Conservation Springer Netherlands pp 167 177 doi 10 1007 978 94 011 0721 1 8 ISBN 9789401043113 a b Moberg GP Mench JA 2000 01 01 The Biology of Animal Stress Basic Principles and Implications for Animal Welfare CABI ISBN 9780851999302 Mason GJ 1991 Stereotypies A critical review Animal Behaviour 41 6 1015 1037 doi 10 1016 S0003 3472 05 80640 2 hdl 10214 4622 S2CID 53187334 Claes A Attur Shanmugam A Jensen P 2010 Habituation to environmental enrichment in captive Sloth Bears effect on stereotypies Zoo Biology 29 6 705 714 doi 10 1002 zoo 20301 PMID 20069629 Mendl M Burman OH Parker RM Paul ES 2009 Cognitive bias as an indicator of animal emotion and welfare Emerging evidence and underlying mechanisms Applied Animal Behaviour Science 118 3 4 161 181 doi 10 1016 j applanim 2009 02 023 Duncan IJ Wood Gush DG 1971 Frustration and aggression in the domestic fowl Animal Behaviour 19 3 500 504 doi 10 1016 S0003 3472 71 80104 5 PMID 5167834 Zimmerman PH Lundberg A Keeling LJ Koene P 2003 The effect of an audience on the gakel call and other frustration behaviours in the laying hen Gallus gallus domesticus Animal Welfare 12 3 315 326 doi 10 1017 S0962728600025823 S2CID 145114602 Kemppinen N Hau J Meller A Mauranen K Kohila T Nevalainen T 2010 Impact of aspen furniture and restricted feeding on activity blood pressure heart rate and faecal corticosterone and immunoglobulin A excretion in rats Rattus norvegicus housed in individually ventilated cages Laboratory Animals 44 2 104 112 doi 10 1258 la 2009 009058 PMID 19854757 S2CID 17743686 Laws N Ganswindt A Heistermann M Harris M Harris S Sherwin C 2007 A case study fecal corticosteroid and behavior as indicators of welfare during relocation of an asian elephant Journal of Applied Animal Welfare Science 10 4 349 358 doi 10 1080 10888700701555600 PMID 17970634 S2CID 46617133 Martin LB Kidd L Liebl AL Coon CA August 2011 Captivity induces hyper inflammation in the house sparrow Passer domesticus The Journal of Experimental Biology 214 Pt 15 2579 85 doi 10 1242 jeb 057216 PMID 21753052 S2CID 31326602 Lewis MH Presti MF Lewis JB Turner CA 2006 The neurobiology of stereotypy I Environmental complexity In Mason G Rushen J eds Stereotypic Animal Behaviour Fundamentals and Applications to Welfare CABI pp 190 226 doi 10 1079 9780851990040 0190 ISBN 9780851990040 Hughes BO Gilbert AB Brown MF 1986 Categorisation and causes of abnormal egg shells relationship with stress British Poultry Science 27 2 325 337 doi 10 1080 00071668608416885 PMID 3742268 Wilcox CS Patterson J Cheng HW 2009 Use of thermography to screen for subclinical bumblefoot in poultry Poultry Science 88 6 1176 1180 doi 10 3382 ps 2008 00446 PMID 19439627 S2CID 42216865 French F Mancini C Sharp H April 2018 High tech cognitive and acoustic enrichment for captive elephants PDF Journal of Neuroscience Methods 300 173 183 doi 10 1016 j jneumeth 2017 09 009 PMID 28951175 S2CID 4548453 Hoy JM Murray PJ Tribe A 2010 Thirty years later enrichment practices for captive mammals Zoo Biology 29 3 303 16 doi 10 1002 zoo 20254 PMID 19434736 External links Edit nbsp Wikimedia Commons has media related to Behavioral enrichment Laboratory Animal Refinement Database Animals in Laboratories awionline org 3R Research Foundation Switzerland forschung3R ch Environmental Enrichment Animal Welfare Information Center The Shape of Enrichment selected articles on enrichment for zoo animals Environmental Enrichment for Pet Cats ASPCA Environmental Enrichment for Pet Dogs ASPCA Environmental Enrichment for Horses ASPCA Retrieved from https en wikipedia org w index php title Behavioral enrichment amp oldid 1143047355, wikipedia, wiki, book, books, library,

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