Department of Anthropology, University of Florida, 1112 Turlington Hall, Gainesville, FL 32611, USA.
Biol Lett. 2013 Jul 10;9(4):20130466. doi: 10.1098/rsbl.2013.0466. Print 2013 Aug 23.
This study tests the hypothesis that vertical habitat preferences of different monkey species inhabiting closed canopy rainforest are reflected in oxygen isotopes. We sampled bone from seven sympatric cercopithecid species in the Taï forest, Côte d'Ivoire, where long-term study has established taxon-specific patterns of habitat use and diet. Modern rib samples (n = 34) were examined for oxygen (δ(18)Oap) and carbon (δ(13)Cap) from bone apatite ('bioapatite'), and carbon (δ(13)Cco) and nitrogen (δ(15)Nco) from bone collagen. Results are consistent for C3 feeders in a closed canopy habitat. Low irradiance and evapotranspiration, coupled with high relative humidity and recycled CO2 in forest understory, contribute to observed isotopic variability. Both δ(13)Cco and δ(13)Cap results reflect diet; however, δ(13)C values are not correlated with species preference for canopy height. By contrast, δ(18)Oap results are correlated with mean observed height and show significant vertical partitioning between taxa feeding at ground, lower and upper canopy levels. This oxygen isotope canopy effect has important palaeobiological implications for reconstructing vertical partitioning among sympatric primates and other species in tropical forests.
本研究检验了这样一个假设,即栖息在封闭冠层雨林中的不同猴种的垂直栖息地偏好反映在氧同位素中。我们在科特迪瓦泰森林中对 7 种共生的长尾猴进行了采样,在那里,长期研究已经确定了特定分类群的栖息地利用和饮食模式。对来自 34 块现代肋骨的样本中的骨磷灰石('生物磷灰石')中的氧(δ(18)Oap)和碳(δ(13)Cap),以及骨胶原中的碳(δ(13)Cco)和氮(δ(15)Nco)进行了检查。结果与在封闭冠层栖息地中的 C3 食草动物一致。低光照和蒸散作用,加上森林下层的高相对湿度和再循环的 CO2,导致了观察到的同位素变异性。δ(13)Cco 和 δ(13)Cap 结果都反映了饮食;然而,δ(13)C 值与物种对树冠高度的偏好无关。相比之下,δ(18)Oap 结果与观察到的平均高度相关,并在地面、较低和较高树冠层觅食的分类群之间表现出显著的垂直分区。这种氧同位素树冠效应对重建热带森林中共生灵长类动物和其他物种之间的垂直分区具有重要的古生物学意义。