PD Dr. med. vet. Harald Michael Hammon
Forschungsinteressen
- Stoffwechsel und endokrine Regulation von Wachstum, Entwicklung und Energiestoffwechsel beim Rind
- Ernährung von Kalb und Kuh
Lebenslauf
- 04/2004-heute:
Abteilungsleiter und stellvertretender Institutsleiter am Institut für Ernährungsphysiologie “Oskar-Kellner” am Leibniz-Institut Nutztierbiologie (FBN), Dummerstorf, Arbeitsgruppenleiter “Endokrine Stoffwechselregulation" - 04/1998-03/2004: Wissenschaftlicher Mitarbeiter an der Abteilung für Ernährungspathologie, Institut für Tierzucht, Universität Bern, Schweiz
- 12/2003: Habilitation in Tierphysiologie an der Universität of Bern, Venia docendi für Tierphysiologie
- 09/2001-05/2002: Gastaufenthalt am Department of Animal Science, Purdue University, IN, USA
- 01/1994-03/1998: Post Doc an der Abteilung für Ernährungspathologie, Institut für Tierzucht, Universität Bern, Schweiz
- 02/1993-12/1993: Assistent in Großtierpraxis
- 04/1991-12/1992: Promotion an der Abteilung für Ernährungspathologie, Institut für Tierzucht, Universität Bern, Schweiz
- 09.01.1991: Approbation zum Tierarzt
- 1985-1990: Studium der Veterinärmedizin an der Ludwig-Maximilians-Universität in München
Lehre
Vorlesung und Seminare in Physiologie und Anatomie sowie Leistungs- und Pathophysiologie der Nutztiere an der Universität Rostock, Agrar- und Umweltwissenschaftliche Fakultät
Publikationen
Gohlke, A.; Ingelmann, C. -J.; Nürnberg, G.; Weitzel, J. M.; Hammon, H. M.; Görs, S.; Starke, A.; Wolffram, S.; Metges, C. C. (2013):
Influence of 4-week intraduodenal supplementation of quercetin on performance, glucose metabolism, and mRNA abundance of genes related to glucose metabolism and antioxidative status in dairy cows. J Dairy Sci 96 (11): 6986-7000
https://dx.doi.org/10.3168/jds.2013-6852
Hötger, K.; Hammon, H. M.; Metges, C. C. (2013):
CLAs ermöglichen effizientere Produktion. ELITE (6): 42-43
Widmann, P.; Reverter, A.; Fortes, M.; Weikard, R.; Suhre, K.; Hammon, H. M.; Albrecht, E.; Kühn, C. (2013):
A systems biology approach using metabolomic data reveals genes and pathways interacting to modulate divergent growth in cattle. BMC Genomics 14: 798-815
https://dx.doi.org/10.1186/1471-2164-14-798
Weber, F. M.; Hametner, C.; Tuchscherer, A.; Losand, B.; Kanitz, E.; Otten, W.; Sauerwein, H.; Bruckmaier, R. M.; Becker, D.; Kanitz, W.; Hammon, H. M. (2013):
Hepatic gene expression involved in glucose and lipid metabolism in transition cows: effects of fat mobilization during early lactation in relation to milk performance and metabolic changes. J Dairy Sci 96 (9): 5670-5681
https://dx.doi.org/10.3168/jds.2012-6277
Mielenz, M.; Kuhla, B.; Hammon, H. M. (2013):
Abundance of adiponectin system and G-protein coupled receptor GPR109A mRNA in adipose tissue and liver of F2 offspring cows of Charolais x German Holstein crosses that differ in body fat accumulation. J Dairy Sci 96 (1): 278-289
https://dx.doi.org/10.3168/jds.2012-5816
Schäff, C. T.; Börner, S.; Hacke, S.; Kautzsch, U.; Sauerwein, H.; Spachmann, S. K.; Schweigel-Röntgen, M.; Hammon, H. M.; Kuhla, B. (2013):
Increased muscle fatty acid oxidation in dairy cows with intensive body fat mobilization during early lactation. J Dairy Sci 96 (10): 6449-6460
https://dx.doi.org/10.3168/jds.2013-6812
Börner, S.; Albrecht, E.; Schäff, C. T.; Hacke, S.; Kautzsch, U.; Derno, M.; Hammon, H. M.; Röntgen, M.; Sauerwein, H.; Kuhla, B. (2013):
Reduced AgRP activation in the hypothalamus of cows with high extent of fat mobilization after parturition. Gen Comp Endocr 193: 167-177
https://dx.doi.org/10.1016/j.ygcen.2013.08.002
Schönhusen, U.; Junghans, P.; Flöter, A.; Steinhoff-Wagner, J.; Görs, S.; Schneider, F.; Metges, C. C.; Hammon, H. M. (2013):
First-pass uptake and oxidation of glucose by the splanchnic tissue in young goats fed soy protein-based milk diets with or without amino acid supplementation. J Dairy Sci 96 (4): 2400-2412
https://dx.doi.org/10.3168/jds.2012-5933
Derno, M.; Nürnberg, G.; Schön, P.-Ch.; Schwarm, A.; Röntgen, M.; Hammon, H. M.; Metges, C. C.; Bruckmaier, R. M.; Kuhla, B. (2013):
Short-term feed intake is regulated by macronutrient oxidation in lactating Holstein cows. J Dairy Sci 96 (2): 971-980
https://dx.doi.org/10.3168/jds.2012-5727
Börner, S.; Derno, M.; Hacke, S.; Kautzsch, U.; Schäff, C. T.; ThanThan, S.; Kuwayama, H.; Hammon, H. M.; Röntgen, M.; Weikard, R.; Kühn, C.; Tuchscherer, A.; Kuhla, B. (2013):
Plasma ghrelin is positively associated with body fat, liver fat and milk fat content, but not with feed intake of dairy cows after parturition. J Endocrinol 216 (2): 217-229
https://dx.doi.org/10.1530/Joe-12-0384
Hötger, K.; Hammon, H. M.; Weber, F. M.; Görs, S.; Tröscher, A.; Bruckmaier, R. M.; Metges, C. C. (2013):
Supplementation of conjugated linoleic acid in dairy cows reduces endogenous glucose production during early lactation. J Dairy Sci 96 (4): 2258-2270
https://dx.doi.org/10.3168/jds.2012-6127
Hammon, H. M.; Steinhoff-Wagner, J.; Flor, J.; Schönhusen, U.; Metges, C. C. (2013):
Role of colostrum and colostrum components on glucose metabolism in neonatal calves. J Anim Sci 91 (2): 685-695
https://dx.doi.org/10.2527/jas.2012-5758
Weber, F. M.; Hametner, C.; Tuchscherer, A.; Losand, B.; Kanitz, E.; Otten, W.; Singh, S. P.; Bruckmaier, R. M.; Becker, D.; Kanitz, W.; Hammon, H. M. (2013):
Variation in fat mobilization during early lactation differently affects feed intake, body condition, and lipid and glucose metabolism in high-yielding dairy cows. J Dairy Sci 96 (1): 165-180
https://dx.doi.org/10.3168/jds.2012-5574
Schwarm, A.; Viergutz, T.; Kuhla, B.; Hammon, H. M.; Schweigel-Röntgen, M. (2013):
Fuel feeds function: energy balance and bovine peripheral blood mononuclear cell activation. Comp Biochem Phys A 164 (1): 101-110
https://dx.doi.org/10.1016/j.cbpa.2012.10.009
Michalski, J. P.; Kowalczyk, B.; Voigt, J.; Hammon, H. M.; Czauderna, M.; Metges, C. C. (2012):
Efficiency of endogenous urea 15N nitrogen incorporation into bacterial and milk protein of goats fed diets with three different protein levels. J Anim Feed Sci 21 (4): 599-612
https://dx.doi.org/10.22358/jafs/65918/2013
Koch, C.; Hammon, H. M. (2012):
Metabolische Programmierung bei Rindern? Was bedeutet dies?. Nutztierpraxis 43: 10-13
Hamada, M.; Albrecht, E.; El-Bagory, A.-R.; Edris, A.-B.; Hammon, H. M.; Nürnberg, G.; Maak, S. (2012):
Meat quality traits and muscle composition of cows differing in lactation performance. Arch Tierzucht 55 (1): 36-47
Steinhoff-Wagner, J.; Hammon, H. M. (2012):
Anpassung des Glucosestoffwechsels bei Kälbern nach der Geburt. Zuchtungskunde 84 (3): 226-241
Hammon, H. M.; Steinhoff-Wagner, J.; Schönhusen, U.; Metges, C. C.; Blum, J. W. (2012):
Energy metabolism in the newborn farm animal with emphasis on the calf: Endocrine changes and responses to milk-born and systemic hormones. DOMEST ANIM ENDOCRIN 43 (2): 171-185
https://dx.doi.org/10.1016/j.domaniend.2012.02.005
Schäff, C. T.; Albrecht, D.; Hammon, H. M.; Röntgen, M.; Metges, C. C.; Kuhla, B. (2012):
A longitudinal proteomic approach to investigate liver metabolism in periparturient dairy cows with different body fat mobilization. In: Farm Animal Proteomics : proceedings of the 3rd Managing Commitee Meeting and 2nd Meeting of the Working Groups 1,2 & 3 of COST Action FA1002 (Pedro Rodrigues, David Eckersall, Andre de Almeida, Hrsg.) Wageningen Academic Publishers, Wageningen (978-90-8686-195-8, 978-90-8686-751-6 eBook): 145-147