ÇòËÙÌåÓý

¡ª Éú̬ ¡¤ Å©Òµ ¡¤ ½¡¿µ ¡ª
²úÆ·¿ìѶ
ÇòËÙÌåÓýÁ½ÅÀ¶¯ÎïÄÜÁ¿´úлÕÉÁ¿¼¼Êõ²¿·Ö²Î¿¼ÎÄÏ×Ŀ¼
ʱ¼ä£º2024-09-26    ×÷ÕߣºÇòËÙÌåÓý µã»÷Á¿£º

  Á½ÅÀÀදÎïµÄÄÜÁ¿´úлÑо¿¹ØÓÚÀí½âËüÃǵÄÉú´æÕ½ÂÔ¡¢ÊÊÓ¦Çé¿ö±ä¸ïµÄÄÜÁ¦ÒÔ¼°ÔÚÉú̬ϵͳÖеĽÇÉ«ÖÁ¹ØÖØÒª ¡£Í¨¹ýÕÉÁ¿ÕâЩ¶¯ÎïÔÚ²î±ðÉú̬Ìõ¼þϵĺÄÑõÁ¿(VO2)£¬¿Æѧ¼ÒÃÇÔ¤²âÏ¢ÕùÊÍËüÃǶÔÆøºò±ä¸ï¡¢ÆÜÏ¢µØÆÆ»µºÍÆäËûÇé¿öѹÁ¦µÄ·´Ó¦£¬´Ó¶øΪ±£»¤ÉúÎï¶àÑùÐÔºÍά³ÖÉú̬ƽºâÌṩÖØÒªµÄÊý¾ÝÖ§³Ö ¡£±ðµÄ£¬ÕâЩÑо¿ÁíÓÐÖúÓÚ½Òʾ´úлÀú³ÌµÄÉúÎïѧ»ù´¡£¬Îª±È½ÏÉúÀíѧÌṩ¼û½â£¬²¢¿ÉÄܶÔÈËÀàҽѧºÍ±£½¡ÓÐËùÆô·¢ ¡£

welcome-ÇòËÙÌåÓý

  • Baškiera, Senka, and Lumír Gvo?dík. "Repeatability and heritability of resting metabolic rate in a long-lived amphibian." Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 253 (2021): 110858.
  • Burger I J, Carter E T, Magner L M, et al. Assessing hybrid vigour using the thermal sensitivity of physiological trade©\offs in tiger salamanders[J]. Functional Ecology, 2024, 38(1): 143-152.
  • Capparelli M V , Bordon I C , Araujo G , et al. Combined effects of temperature and copper on oxygen consumption and antioxidant responses in the mudflat fiddler crab Minuca rapax (Brachyura, Ocypodidae)[J]. Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology, 2019, 223:35-41.
  • Dubiner S, Jamison S, Meiri S, et al. Squamate metabolic rates decrease in winter beyond the effect of temperature[J]. Journal of Animal Ecology, 2023, 92(11): 2163-2174.
  • Faria, S. C., Bianchini, A., Lauer, M. M., Zimbardi, A. L. R. L., Tapella, F., Romero, M. C., & McNamara, J. C. (2020). Living on the Edge: Physiological and Kinetic Trade-Offs Shape Thermal Tolerance in Intertidal Crabs From Tropical to Sub-Antarctic South America. Frontiers in Physiology, 11.
  • Gvozdik, Lumir, Kratochvil, et al. An energetic perspective on tissue regeneration: The costs of tail autotomy in growing geckos[J]. Comparative biochemistry and physiology, Part A. Molecular and integrative physiology, 2017.
  • Jiang ZW, Ma L, Tao SA, Wenda C, Cheng C, Wu DY, Du WG. Analysis of resting status reveals distinct elevational variation in metabolisms of lizards. Ecology. 2024 Sep 10:e4414. doi: 10.1002/ecy.4414. Epub ahead of print. PMID: 39256909.
  • Kouyoumdjian L , Gangloff E J , et al. Transplanting gravid lizards to high elevation alters maternal and embryonic oxygen physiology, but not reproductive success or hatchling phenotype[J]. Journal of Experimental Biology, 2019, 222(14):jeb.206839.
  • Lardies M A , Munoz J L , Paschke K A , et al. Latitudinal variation in the aerial/aquatic ratio of oxygen consumption of a supratidal high rocky-shore crab[J]. Marine Ecology, 2011, 32(1):42-51.
  • Louppe, V., Courant, J., Videlier, M., & Herrel, A. (2018). Differences in standard metabolic rate at the range edge versus the center of an expanding invasive population of Xenopus laevis in the West of France. Journal of Zoology, 305, 163-172.
  • Messerman, Arianne F., and Manuel Leal. "Inter-and intraspecific variation in juvenile metabolism and water loss among five biphasic amphibian species." Oecologia 194.3 (2020): 371-382.
  • Messerman, Arianne F., and Manuel Leal. "The contributions of individual traits to survival among terrestrial juvenile pond©\breeding salamanders." Functional Ecology 36.3 (2022): 516-525.
  • Padilla P, Herrel A, Denoël M. Invading new climates at what cost? Ontogenetic differences in the thermal dependence of metabolic rate in an invasive amphibian[J]. Journal of Thermal Biology, 2024, 121: 103836.
  • Riddell, E.A., Roback, E.Y., Wells, C.E.et al.Thermal cues drive plasticity of desiccation resistance in montane salamanders with implications for climate change. Nat Commun 10,4091 (2019).https://doi.org/10.1038/s41467-019-11990-4
  • Senzano L M, Andrade D V. Temperature and dehydration effects on metabolism, water uptake and the partitioning between respiratory and cutaneous evaporative water loss in a terrestrial toad[J]. Journal of Experimental Biology, 2018, 221(24): jeb188482.

- ·µ»ØÁбí -
¿´²»Ç壿»»Ò»ÕÅ
{{isLoading?'Éú´æÖÐ':'Éú´æ'}}
welcome-ÇòËÙÌåÓý

Î÷°²Ñз¢ÖÐÐÄ

΢ÐÅÃñÖÚºÅ

welcome-ÇòËÙÌåÓý

ÒµÎñ×Éѯ

΢ÐźÅ

welcome-ÇòËÙÌåÓý

ÇòËÙÌåÓý¹«Ë¾

΢ÐÅÃñÖÚºÅ

welcome-ÇòËÙÌåÓý

ÇòËÙÌåÓý¹«Ë¾

ÊÓƵºÅ

ÁªÏµÇòËÙÌåÓý£º

µØµã: ±±¾©Êк£µíÇø¸ßÀïÕÆ·3ºÅÔº6ºÅÂ¥1µ¥Î»101B

µç»°: 010-82611269/1572

ÊÖ»ú: 13671083121

´«Õæ: 010-62465844

Email: info@eco-tech.com.cn

ÓÑÇéÁ´½Ó£º

X
1

QQÉèÖÃ

  • ¿Í·þ
5

µç»°ºÅÂëÖÎÀí

  • ±±¾© 010-82611269 13671083121
6

¶þάÂëÖÎÀí

welcome-ÇòËÙÌåÓý
ÍøÕ¾µØͼ
ÓÑÇéÁ´½Ó£º918²«ÌìÌà AGÆì½¢Ìü  k8¿­·¢ÌìÉúÓ®¼Ò  AGÆì½¢Ìü  ¾ÅÖÝ¿áÓΠ ¿­·¢k8¹ú¼Ê  AGÆì½¢Ìü  ÈËÉú¾ÍÊDz©  jdbµç×Óƽ̨  ÇòËÙÌåÓý  AG×ðÁú  ng28ÄϹ¬  À´Àû¹ú¼Êw66  ÇòËÙÌåÓý  Ã×ÀÖM6¹ÙÍø