Ambient, productive and wind energy, and ocean extent predict global species richness of procellariiform seabirds

被引:34
作者
Davies, Richard G. [1 ]
Irlich, Ulrike M. [2 ]
Chown, Steven L. [2 ]
Gaston, Kevin J. [3 ]
机构
[1] Univ E Anglia, Sch Biol Sci, Ctr Ecol Evolut & Conservat, Norwich NR4 7TJ, Norfolk, England
[2] Univ Stellenbosch, Dept Bot & Zool, Ctr Invas Biol, ZA-7602 Matieland, South Africa
[3] Univ Sheffield, Dept Anim & Plant Sci, Biodivers & Macroecol Grp, Sheffield S10 2TN, S Yorkshire, England
来源
GLOBAL ECOLOGY AND BIOGEOGRAPHY | 2010年 / 19卷 / 01期
关键词
Available energy; foraging energetics; latitudinal diversity gradient; species richness; species-energy theory; wind speed; PREHISTORIC EXTINCTIONS; WANDERING ALBATROSSES; LATITUDINAL GRADIENTS; PLANT DISPERSAL; MODEL SELECTION; SOUTH GEORGIA; HUMAN IMPACTS; BIRDS; DIVERSITY; PATTERNS;
D O I
10.1111/j.1466-8238.2009.00498.x
中图分类号
Q14 [生态学(生物生态学)];
学科分类号
071012 ; 0713 ;
摘要
Aims Tests of the energy hypothesis for the large-scale distribution of species richness have largely been concerned with the influence of two alternative forms of environmental energy, temperature and energy from primary productivity, both of which (at least in terrestrial systems) peak within the tropics. Taxa showing extra-tropical diversity peaks present a potential challenge to the generality of species-energy theory. One such group are pelagic seabirds of the order Procellariiformes that show not only an extra-tropical diversity peak but one confined to the Southern Ocean, hence a highly asymmetric one. They are distinct in being exceptionally adapted to take advantage of wind energy, which they may rely on for long-distance ocean foraging for the patchy resources needed to meet their energetic needs. Wind represents a readily available source of kinetic energy, shows a strong latitudinal gradient, and has been largely omitted from species-energy theory. Moreover, maximal benefits of wind are likely to be afforded in areas of greatest available contiguous ocean extent. We compare the relative importance of wind speed, ocean productivity (chlorophyll concentration), air temperature and available ocean extent (distance) in explaining large-scale global distribution of procellariiform species richness across the world's oceans. Location Global, oceanic. Methods Hierarchical partitioning, model selection, ordinary least squares (OLS) and spatial generalized least squares (GLS) regression. Results Hierarchical partitioning of non-spatial regression models indicates that ocean distance is the most important predictor of procellariiform species richness followed by wind speed and then temperature. In contrast, that of spatial regression models indicates the roughly equal importance of ocean distance and temperature, followed by wind speed. Although contributing additional model fit, ocean productivity is consistently the weakest predictor. Best-fit models include all four predictors and explain 67% of observed variation. The species-productivity relationship is negative overall, while the species-temperature relationship is hump-shaped. In contrast, ocean distance and wind speed are positively associated with species richness. Conclusions Large-scale procellariiform species richness distribution may represent a trade-off in the use of different energy forms, being highest in Southern Ocean areas where productive energy and temperature are relatively low, but where available ocean foraging extent and wind energy required to utilize it are near-maximal.
引用
收藏
页码:98 / 110
页数:13
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