Biology Reference
In-Depth Information
Larson, B.M.H., Kevan, P.G., & Inouye, D.W. (2001). Flies and flowers: taxonomic diversity
of anthophiles and pollinators.
Canadian Entomologist
,
133
, 439-465.
Law, B.S. (1992). The maintenance nitrogen requirements of the Queensland blossom bat
(
Syconycteris australis
) on a sugar/pollen diet: is nitrogen a limiting resource?
Physiologi-
cal Zoology
,
65
, 634-648.
Law, B.S. (1995). The effect of energy supplementation on the local abundance of the com-
mon blossom bat,
Syconycteris australis
, in south-eastern Australia.
Oikos
,
72
, 42-50.
Law, B.S., & Lean, M. (1999). Common blossom bats (
Syconycteris australis
) as pollinators
in fragmented Australian tropical rainforest.
Biological Conservation
,
91
, 201-212.
Lindauer, M. (1948). Über die Einwirkung von Duft- und Geschmackstoffen sowie anderer
Faktoren auf die Tänze der Bienen.
Zeitschrift fuer Vergleichende Physiologie
,
31
, 348-
412.
Liu, A.-Z., Li, D.-Z., Wang, H., & Kress, W.J. (2002). Ornithophilous and chiropterophilous
pollination in
Musa itinerans
(Musaceae), a pioneer species in tropical rain forests of
Yunnan, southwestern China.
Biotropica
,
34
, 254-260.
Lotz, C.N., Martínez del Rio, C., & Nicolson, S.W. (2003). Hummingbirds pay a high cost for
a warm drink.
Journal of Comparative Physiology B
,
173
, 455-462.
Lotz, C.N., & Schondube, J.E. (2006). Sugar preferences in nectar- and fruit-eating birds:
behavioral patterns and physiological causes.
Biotropica
,
38
, 3-15.
Louw, G.N., & Nicolson, S.W. (1983). Thermal, energetic and nutritional considerations in
foraging and reproduction of the carpenter bee
Xylocopa capitata
.
Journal of the Entomo-
logical Society of South Africa
,
46
, 227-240.
Maloof, J.E., & Inouye, D.W. (2000). Are nectar robbers cheaters or mutualists?
Ecology
,
81
,
2651-2661.
Markman, S., Pinshow, B., & Wright, J. (2002). The manipulation of food resources reveals
sex-specific trade-offs between parental self-feeding and offspring care.
Proceedings of
the Royal Society of London B
,
269
, 1931-1938.
Martínez del Rio, C. (1990). Sugar preferences in hummingbirds: the influence of subtle
chemical differences on food choice.
Condor
,
92
, 1022-1030.
Martínez del Rio, C., Baker, H.G., & Baker, I. (1992). Ecological and evolutionary implica-
tions of digestive processes: bird preferences and the sugar constituents of floral nectar and
fruit pulp.
Experientia
,
48
, 544-551.
Martínez del Rio, C., Schondube, J.E., McWhorter, T.J., & Herrera, L.G. (2001). Intake re-
sponses in nectar feeding birds: digestive and metabolic causes, osmoregulatory
consequences, and coevolutionary effects.
American Zoologist
,
41
, 902-915.
Martínez del Rio, C., Stevens, B.R., Daneke, D.E., & Andreadis, P.T. (1988). Physiological
correlates of preference and aversion for sugars in three species of birds.
Physiological
Zoology
,
61
, 222-229.
May, P.G. (1985). Nectar uptake rates and optimal nectar concentrations of two butterfly spe-
cies.
Oecologia
,
66
, 381-386.
Mayr, G. (2004). Old World fossil record of modern-type hummingbirds.
Science
,
304
, 861-
864.
McDade, L.A., & Weeks, J.A. (2004a). Nectar in hummingbird-pollinated Neotropical plants
I: patterns of production and variability in 12 species.
Biotropica
,
36
, 196-215.
McDade, L.A., & Weeks, J.A. (2004b). Nectar in hummingbird-pollinated Neotropical plants
II: Interactions with flower visitors.
Biotropica
,
36
, 216-230.
McWhorter, T.J., Hartman Bakken, B., Karasov, W.H., & Martínez del Rio, C. (2006).
Hummingbirds rely on both paracellular and carrier-mediated intestinal glucose absorption
to fuel high metabolism.
Biology Letters
,
2
, 131-134.
