Symes, CTMcKechnie, AENicolson, SWWoodborne, SM2011-01-202011-01-202010Symes, CT, McKechnie, AE, Nicolson, SW and Woodborne, SM. 2010. Nutritional significance of a winter-flowering succulent for opportunistic avian nectarivores. The International Journal of Avian Science, Vol. 153(1), pp 110-1211474-919Xhttp://hdl.handle.net/10204/4769Copyright: 2010 The Authors. Journal compilation: Copyright 2010 British Ornithologists’ UnionThe winter-flowering succulent Aloe marlothii provides nectar for many opportunisticavian nectarivores in southern African savannas. We assessed the importance of A. marlothii nectar sugar for opportunistic nectarivores by analysing temporal changes in stable carbon isotope ratios (d13C) in the tissues of birds in Suikerbosrand Nature Reserve, South Africa. The blood of the 11 most common non-granivorous opportunistic nectarivores at our site was enriched in 13C by 3.4 ± 1.5& during the flowering period of A. marlothii, reflecting the enriched crassulacean acid metabolism (CAM) isotopic signature of nectar ()12.6 ± 0.5&). This relatively small contribution of A. marlothii nectar to assimilated carbon in whole blood contrasted with that of exhaled CO2 in African Red-eyed Bulbuls Pycnonotus nigricans and Cape White-eyes Zosterops capensis. In both these species, the d13C of breath samples was significantly enriched compared with blood and feathers, and closely resembled that of the nectar, revealing combustion of ingested nectar rather than assimilation. Although our analysis was complicated by the presence of C4 grasses, whose d13C values are similar to those of CAM photosynthesizers, when considered with previously published feeding observations our data reveal that opportunistic nectarivores feeding on A. marlothii nectar obtain a relatively small fraction of their assimilated carbon, but most of their metabolized carbon, from this seasonally available carbohydrate food resource. Because the d13C values of insects associated with C3 plants also became enriched during the flowering season, some insect-eating opportunistic nectarivores may have assimilated A. marlothii carbon indirectly from insects. This study highlights the importance of understanding isotopic routing when assessing the nutritional significance of specific dietary items to consumer communities.enAloe marlothiiBulbulStable isotopeSunbirdSucculentIsotope routingArticleSymes, C., McKechnie, A., Nicolson, S., & Woodborne, S. (2010). Nutritional significance of a winter-flowering succulent for opportunistic avian nectarivores. http://hdl.handle.net/10204/4769Symes, CT, AE McKechnie, SW Nicolson, and SM Woodborne "Nutritional significance of a winter-flowering succulent for opportunistic avian nectarivores." (2010) http://hdl.handle.net/10204/4769Symes C, McKechnie A, Nicolson S, Woodborne S. Nutritional significance of a winter-flowering succulent for opportunistic avian nectarivores. 2010; http://hdl.handle.net/10204/4769.TY - Article AU - Symes, CT AU - McKechnie, AE AU - Nicolson, SW AU - Woodborne, SM AB - The winter-flowering succulent Aloe marlothii provides nectar for many opportunisticavian nectarivores in southern African savannas. We assessed the importance of A. marlothii nectar sugar for opportunistic nectarivores by analysing temporal changes in stable carbon isotope ratios (d13C) in the tissues of birds in Suikerbosrand Nature Reserve, South Africa. The blood of the 11 most common non-granivorous opportunistic nectarivores at our site was enriched in 13C by 3.4 ± 1.5& during the flowering period of A. marlothii, reflecting the enriched crassulacean acid metabolism (CAM) isotopic signature of nectar ()12.6 ± 0.5&). This relatively small contribution of A. marlothii nectar to assimilated carbon in whole blood contrasted with that of exhaled CO2 in African Red-eyed Bulbuls Pycnonotus nigricans and Cape White-eyes Zosterops capensis. In both these species, the d13C of breath samples was significantly enriched compared with blood and feathers, and closely resembled that of the nectar, revealing combustion of ingested nectar rather than assimilation. Although our analysis was complicated by the presence of C4 grasses, whose d13C values are similar to those of CAM photosynthesizers, when considered with previously published feeding observations our data reveal that opportunistic nectarivores feeding on A. marlothii nectar obtain a relatively small fraction of their assimilated carbon, but most of their metabolized carbon, from this seasonally available carbohydrate food resource. Because the d13C values of insects associated with C3 plants also became enriched during the flowering season, some insect-eating opportunistic nectarivores may have assimilated A. marlothii carbon indirectly from insects. This study highlights the importance of understanding isotopic routing when assessing the nutritional significance of specific dietary items to consumer communities. DA - 2010 DB - ResearchSpace DP - CSIR KW - Aloe marlothii KW - Bulbul KW - Stable isotope KW - Sunbird KW - Succulent KW - Isotope routing LK - https://researchspace.csir.co.za PY - 2010 SM - 1474-919X T1 - Nutritional significance of a winter-flowering succulent for opportunistic avian nectarivores TI - Nutritional significance of a winter-flowering succulent for opportunistic avian nectarivores UR - http://hdl.handle.net/10204/4769 ER -