Knowledge

Homology (psychology)

Source 📝

42:, behaviors present in different species can be considered homologous if they are likely present in those species because the behaviors were present in a common ancestor of the two species. Alternatively, in much the same way as reproductive structures (e.g., the penis and the clitoris) are considered homologous because they share a common origin in embryonic tissues, behaviors—or the 523:
nonhuman primates' behavior in groups, a conjunction of hard human data and hard nonhuman primate data, lends credence to our comparison. Our conclusion is that, based on their agreement in several unusual characteristics, dominance patterns are homologous in primates. This agreement of unusual
38:, refers to a relationship between characteristics that reflects the characteristics' origins in either evolution or development. Homologous behaviors can theoretically be of at least two different varieties. As with 158:
Anderson, Michael L.; Penner-Wilger, M. (2013). "Neural reuse in the evolution and development of the brain: Evidence for developmental homology?".
524:
characteristics is found at several levels, including fine motor movement, gross motor movement, and behavior at the group level.
250: 512: 17: 561: 326:
Rendall, Drew; Di Fiore (2007). "Homoplasy, homology, and the perceived special status of behavior in evolution".
53:
studied the evolution of behavior. More recently, the question of behavioral homologies has been addressed by
46:
associated with those behaviors—can also be considered homologous if they share common origins in development.
576: 571: 466:
Moore, David S. (January 2013). "Importing the homology concept from biology into developmental psychology".
65:
such as Georg Striedter and Glenn Northcutt. It is debatable whether the concept of homology is useful in
96:
Moore, David S. (2013). "Importing the homology concept from biology into developmental psychology".
542: 172: 66: 167: 502: 77: 54: 215: 361:
Striedter, Georg; Northcutt (1991). "Biological hierarchies and the concept of homology".
8: 219: 144: 72:
For example, D. W. Rajecki and Randall C. Flanery, using data on humans and on nonhuman
530: 422: 397: 308: 273: 39: 35: 227: 566: 508: 483: 427: 378: 343: 231: 185: 113: 312: 277: 475: 417: 409: 370: 335: 300: 265: 223: 177: 140: 105: 43: 339: 58: 398:"Homology, correspondence, and continuity across development: The case of sleep" 62: 501:
Rajecki, D. W.; Flanery, Randall C. (2013). Lamb, M. E.; Brown, A. L. (eds.).
304: 269: 555: 203: 50: 487: 431: 347: 235: 189: 117: 382: 504:
Social Conflict and Dominance in Children: a Case for a Primate Homology
31: 479: 413: 374: 181: 109: 445: 49:
Behavioral homologies have been considered since at least 1958, when
73: 500: 251:"Psychological categories as homologies: Lessons from ethology" 157: 131:
Wagner, G. P. (1989). "The biological homology concept".
291:
Ereshefsky, Marc (March 2012). "Homology thinking".
360: 553: 446:"Workshop: Homology in Developmental Psychology" 519:Finally, much recent information on children's 325: 290: 248: 61:, psychologists such as Drew Rendall, and 421: 171: 395: 133:Annual Review of Ecology and Systematics 14: 554: 202: 130: 76:, argue that patterns of behaviour in 465: 206:(1958). "The Evolution of Behavior". 95: 40:homologous anatomical characteristics 80:are homologous across the primates. 507:. Taylor and Francis. p. 125. 145:10.1146/annurev.es.20.110189.000411 24: 25: 588: 228:10.1038/scientificamerican1258-67 494: 459: 438: 389: 354: 319: 284: 242: 196: 151: 124: 89: 13: 1: 363:Brain, Behavior and Evolution 83: 340:10.1016/j.jhevol.2006.11.014 7: 468:Developmental Psychobiology 402:Developmental Psychobiology 160:Developmental Psychobiology 98:Developmental Psychobiology 10: 593: 396:Blumberg, Mark S. (2013). 328:Journal of Human Evolution 305:10.1007/s10539-012-9313-7 270:10.1007/s10539-007-9091-9 249:Ereshefsky, Marc (2007). 562:Developmental psychology 293:Biology & Philosophy 258:Biology & Philosophy 67:developmental psychology 55:philosophers of science 78:dominance hierarchies 577:Behavioural sciences 572:Evolutionary biology 18:Homologous behaviors 220:1958SciAm.199f..67L 208:Scientific American 514:978-1-135-83123-3 480:10.1002/dev.21015 414:10.1002/dev.21024 375:10.1159/000114387 182:10.1002/dev.21055 110:10.1002/dev.21015 44:neural substrates 16:(Redirected from 584: 547: 546: 540: 536: 534: 526: 498: 492: 491: 463: 457: 456: 454: 452: 442: 436: 435: 425: 393: 387: 386: 369:(4–5): 177–189. 358: 352: 351: 323: 317: 316: 288: 282: 281: 255: 246: 240: 239: 200: 194: 193: 175: 155: 149: 148: 128: 122: 121: 93: 21: 592: 591: 587: 586: 585: 583: 582: 581: 552: 551: 550: 538: 537: 528: 527: 515: 499: 495: 464: 460: 450: 448: 444: 443: 439: 394: 390: 359: 355: 324: 320: 289: 285: 253: 247: 243: 201: 197: 173:10.1.1.227.6048 156: 152: 129: 125: 94: 90: 86: 63:neuroscientists 59:Marc Ereshefsky 23: 22: 15: 12: 11: 5: 590: 580: 579: 574: 569: 564: 549: 548: 513: 493: 458: 437: 388: 353: 334:(5): 504–521. 318: 299:(3): 381–400. 283: 264:(5): 659–674. 241: 204:Lorenz, Konrad 195: 150: 123: 87: 85: 82: 9: 6: 4: 3: 2: 589: 578: 575: 573: 570: 568: 565: 563: 560: 559: 557: 544: 532: 525: 522: 516: 510: 506: 505: 497: 489: 485: 481: 477: 473: 469: 462: 447: 441: 433: 429: 424: 419: 415: 411: 408:(1): 92–100. 407: 403: 399: 392: 384: 380: 376: 372: 368: 364: 357: 349: 345: 341: 337: 333: 329: 322: 314: 310: 306: 302: 298: 294: 287: 279: 275: 271: 267: 263: 259: 252: 245: 237: 233: 229: 225: 221: 217: 213: 209: 205: 199: 191: 187: 183: 179: 174: 169: 165: 161: 154: 146: 142: 138: 134: 127: 119: 115: 111: 107: 103: 99: 92: 88: 81: 79: 75: 70: 68: 64: 60: 56: 52: 51:Konrad Lorenz 47: 45: 41: 37: 33: 29: 19: 520: 518: 503: 496: 474:(1): 13–21. 471: 467: 461: 449:. Retrieved 440: 405: 401: 391: 366: 362: 356: 331: 327: 321: 296: 292: 286: 261: 257: 244: 214:(6): 67–78. 211: 207: 198: 166:(1): 42–51. 163: 159: 153: 136: 132: 126: 104:(1): 13–21. 101: 97: 91: 71: 48: 27: 26: 539:|work= 556:Categories 84:References 36:in biology 32:psychology 541:ignored ( 531:cite book 168:CiteSeerX 139:: 51–69. 567:Behavior 488:22711075 432:22711221 348:17383711 313:13400374 278:85084191 236:13615332 190:22711453 118:22711075 74:primates 57:such as 28:Homology 451:11 July 423:3459138 383:1663811 216:Bibcode 511:  486:  430:  420:  381:  346:  311:  276:  234:  188:  170:  116:  309:S2CID 274:S2CID 254:(PDF) 34:, as 543:help 509:ISBN 484:PMID 453:2013 428:PMID 379:PMID 344:PMID 232:PMID 186:PMID 114:PMID 521:and 476:doi 418:PMC 410:doi 371:doi 336:doi 301:doi 266:doi 224:doi 212:199 178:doi 141:doi 106:doi 30:in 558:: 535:: 533:}} 529:{{ 517:. 482:. 472:55 470:. 426:. 416:. 406:55 404:. 400:. 377:. 367:38 365:. 342:. 332:52 330:. 307:. 297:27 295:. 272:. 262:22 260:. 256:. 230:. 222:. 210:. 184:. 176:. 164:55 162:. 137:20 135:. 112:. 102:55 100:. 69:. 545:) 490:. 478:: 455:. 434:. 412:: 385:. 373:: 350:. 338:: 315:. 303:: 280:. 268:: 238:. 226:: 218:: 192:. 180:: 147:. 143:: 120:. 108:: 20:)

Index

Homologous behaviors
psychology
in biology
homologous anatomical characteristics
neural substrates
Konrad Lorenz
philosophers of science
Marc Ereshefsky
neuroscientists
developmental psychology
primates
dominance hierarchies
doi
10.1002/dev.21015
PMID
22711075
doi
10.1146/annurev.es.20.110189.000411
CiteSeerX
10.1.1.227.6048
doi
10.1002/dev.21055
PMID
22711453
Lorenz, Konrad
Bibcode
1958SciAm.199f..67L
doi
10.1038/scientificamerican1258-67
PMID

Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.