Biology Reference
In-Depth Information
McWhorter, T.J., & Martínez del Rio, C. (1999). Food ingestion and water turnover in hum-
mingbirds: how much dietary water is absorbed?
Journal of Experimental Biology
,
202
,
2851-2858.
McWhorter, T.J., Martínez del Rio, C., & Pinshow, B. (2003). Modulation of ingested water
absorption by Palestine sunbirds: evidence for adaptive regulation.
Journal of Experimen-
tal Biology
,
206
, 659-666.
Mevi-Schütz, J., & Erhardt, A. (2002). Can
Inachis io
detect nectar amino acids at low con-
centrations?
Physiological Entomology
,
27
, 256-260.
Mevi-Schütz, J., & Erhardt, A. (2004). Mating frequency influences nectar amino acid prefer-
ence of
Pieris napi
.
Proceedings of the Royal Society of London B
,
271
, 153-158.
Mevi-Schütz, J., & Erhardt, A. (2005). Amino acids in nectar enhance butterfly fecundity: a
long-awaited link.
American Naturalist
,
165
, 411-419.
Miller, W.E. (1996). Population behaviour and adult feeding capability in Lepidoptera.
Envi-
ronmental Entomology
,
25
, 213-226.
Mitchell, R.J. (2004). Heritability of nectar traits: why do we know so little?
Ecology
,
85
,
1527-1533.
Mitchell, R.J., & Paton, D.C. (1990). Effects of nectar volume and concentration on sugar
uptake rates of Australian honeyeaters (Meliphagidae).
Oecologia
,
83
, 238-246.
Muchhala, N. (2003). Exploring the boundary between pollination syndromes: bats and hum-
mingbirds as pollinators of
Burmeistera cyclostigmata
and
B. tenuiflora
(Campanulaceae).
Oecologia
,
134
, 373-380.
Navarro, L. (1999). Pollination ecology and effect of nectar removal in
Macleania bullata
(Ericaceae).
Biotropica
,
31
, 618-625.
Ness, J.H. (2003).
Catalpa bignonioides
alters extrafloral nectar production after herbivory
and attracts ant bodyguards.
Oecologia
,
134
, 210-218.
Nicolson, S.W. (1994).
Eucalyptus
nectar: production, availability, composition and osmotic
consequences for the larva of the eucalypt nectar fly,
Drosophila flavohirta
.
South African
Journal of Science
,
90
, 75-79.
Nicolson, S.W. (1998). The importance of osmosis in nectar secretion and its consumption by
insects.
American Zoologist
,
38
, 418-425.
Nicolson, S.W. (2002). Pollination by passerine birds: why are the nectars so dilute?
Com-
parative Biochemistry and Physiology B
,
131
, 645-652.
Nicolson, S.W. (2006). Water management in nectar-feeding birds.
American Journal of
Physiology: Regulatory, Integrative and Comparative Physiology
,
291
, R828-R829.
Nicolson, S.W., & Fleming, P.A. (2003a). Energy balance in the whitebellied sunbird
Nec-
tarinia talatala
: constraints on compensatory feeding, and consumption of supplementary
water.
Functional Ecology
,
17
, 3-9.
Nicolson, S.W., & Fleming, P.A. (2003b). Nectar as food for birds: the physiological conse-
quences of drinking dilute sugar solutions.
Plant Systematics and Evolution
,
238
, 139-153.
Nicolson, S.W., & Louw, G.N. (1982). Simultaneous measurement of evaporative water loss,
oxygen consumption, and thoracic temperature during flight in a carpenter bee.
Journal of
Experimental Zoology
,
222
, 287-296.
Nicolson, S.W., & Thornburg, R.T. (2007). Nectar chemistry. In: S.W. Nicolson, M. Nepi, &
E. Pacini (Eds.),
Nectaries and nectar
(pp. 215-264). Dordrecht: Springer.
Nieh, J.C., Contrera, F.A.L., Ramírez, S., & Imperatriz-Fonseca, V.L. (2003). Variation in the
ability to communicate three-dimensional resource location by stingless bees from differ-
ent habitats.
Animal Behaviour
,
66
, 1129-1139.
Nieh, J.C., & Sánchez, D. (2005). Effect of food quality, distance and height on thoracic tem-
perature in the stingless bee
Melipona panamica
.
Journal of Experimental Biology
,
208
,
3933-3943.
