Modelling the nutritional ecology of ungulate herbivores: evolution of body size and competitive interactions.
about
Biology of the sauropod dinosaurs: the evolution of gigantismSelection towards larger body size in both herbivorous and carnivorous synapsids during the CarboniferousSnout shape in extant ruminantsReconstructing grazer assemblages for protected area restorationNo evidence for directional evolution of body mass in herbivorous theropod dinosaursMiocene ungulates and terrestrial primary productivity: where have all the browsers gone?Behavior rather than diet mediates seasonal differences in seed dispersal by Asian elephants.Woodland recovery after suppression of deer: cascade effects for small mammals, wood mice (Apodemus sylvaticus) and bank voles (Myodes glareolus).Ungulates rely less on visual cues, but more on adapting movement behaviour, when searching for forage.Methane output of tortoises: its contribution to energy loss related to herbivore body mass.Habitat selection according to the ability of animals to eat, digest and detoxify foods.Temporal dynamics of seed excretion by wild ungulates: implications for plant dispersal.Diet Switching by Mammalian Herbivores in Response to Exotic Grass InvasionDetritus Quality and Locality Determines Survival and Mass, but Not Export, of Wood Frogs at Metamorphosis.Little differences in digestive efficiency for protein and fat in mammals of different trophic guilds and digestive strategies: data constraints or fundamental functional similarity?Stable isotope labeled n-alkanes to assess digesta passage kinetics through the digestive tract of ruminantsGeneralities in grazing and browsing ecology: using across-guild comparisons to control contingencies.Mixed grazing systems of goats with cattle in tropical conditions: an alternative to improving animal production in the pasture.A continent-wide assessment of the form and intensity of large mammal herbivory in Africa.Trade-offs between offspring fitness and future reproduction of adult female black brent.Physiological adaptation in savanna ungulates.Body size and the division of niche space: food and predation differentially shape the distribution of Serengeti grazers.Feed consumption, diet digestibility and mineral utilization in captive blackbuck (Antelope cervicapra) fed different levels of concentrates.Studies on digestive physiology and feed digestibilities in captive Indian rhinoceros (Rhinoceros unicornis).Allometry and spatial scales of foraging in mammalian herbivores.Modeling metabolic costs of allelochemical ingestion by foraging herbivores.Assessment of the heterogeneous ruminal fiber pool and development of a mathematical approach for predicting the mean retention time of feeds in goats.Resource-ratio theory applied to large herbivores.A global comparison of the nutritive values of forage plants grown in contrasting environments.Complexity in African savannas: Direct, indirect, and cascading effects of animal densities, rainfall and vegetation availability.Optimal foraging and community structure: The allometry of herbivore food selection and competitionDo Reproductive Status and Lamb Gender Affect the Foraging Behavior of Bighorn Ewes?The role of large herbivores in recruitment of Acacia trees via endozoochory in the Arava Valley, IsraelGetting to the hart of the matter: did antlers truly cause the extinction of the Irish elk?The Dominance of Introduced Plant Species in the Diets of Migratory Galapagos Tortoises Increases with Elevation on a Human-Occupied IslandThe large mean body size of mammalian herbivores explains the productivity paradox during the Last Glacial MaximumTHE ISLAND RULE IN LARGE MAMMALS: PALEONTOLOGY MEETS ECOLOGYModelling the effect of habitat fragmentation on climate-driven migration of European forest understorey plantsPatch configuration affects alpine plant distributionComparative changes in density and demography of large herbivores in the Masai Mara Reserve and its surrounding human-dominated pastoral ranches in Kenya
P2860
Q24613580-8DBA6402-6B10-426D-8DE9-FD0FDD0F3331Q28610039-9E2A8F5D-AB64-4773-915E-8E9532D0FD56Q28652652-CF86ECED-707C-45F1-82C7-002960CA8264Q28657972-6DC7F0D8-D104-438C-B31A-F218C5EA6121Q28708888-B78C95EE-F61A-42A5-85A0-D69C9AE9D3F6Q28776638-CB59E597-B943-4244-9EAC-6E06432BA2C0Q33380351-A2A2E76E-9686-4C05-8CB6-E16BC3D32788Q33454498-479636BD-41B2-4A65-8B18-00D8DCCC5813Q33703350-F75CC8A9-E776-42DB-BF01-83FA84DF2558Q33847262-BE15A8A9-A745-4F18-87E2-865873108F00Q33921899-73AAB649-1656-4C5B-BCCF-925E4A2A6903Q35911814-7790C2F2-9030-44A7-B42E-C242CA195E2DQ35937506-9C38F67E-E4CF-4889-8BDB-FA27D626A6AEQ36185706-69BABE6A-4D5B-4167-9B76-648853C2EB6CQ36408749-A57295CC-4FCF-48D3-AA27-6FAC245F5C19Q37215880-72ED4578-BC21-4482-8AA8-EBB20FA6A6A7Q38175842-BB9CF439-29B1-44BF-9527-D7057A8C7417Q38959086-32F95EE1-CC28-42F7-9D88-491F7C31F6E9Q39063552-F2966D0B-4184-4123-82F2-520A5658EBFBQ39656835-106C4282-1FD9-4016-8284-33D129301DD4Q41713210-C731620B-9003-4466-8F65-E231E6ABF582Q43940124-458CBE42-E23C-4815-BBD1-1401AC839FD0Q45910680-C24A16CB-2628-4629-9562-B4B46A6BB20FQ46401739-A82921F9-76B3-43CA-AB3E-149E764F4C7CQ46920287-47E175BB-5CE0-4448-B972-8231F46CA53EQ47719585-A52FE363-2D5E-4219-958D-B75472EAB4ABQ51115938-7C4C4A7D-5074-47DB-91F9-77681FFFE3FAQ51686209-EF171F96-5D1F-4095-A01D-6804BA54F19EQ53431949-E4726104-A704-42EB-9ADE-233AF1C8CC18Q55211241-77C9B512-EAB3-4D47-8C85-71419E20C817Q55923546-E860050A-BB87-4A26-8091-A42DDFA6392DQ56335656-C543FE24-AD4E-446B-9ECE-7A853495B630Q56426475-E116CDB9-B67A-4AEA-91D5-9C0D174A0AEBQ56431876-7C81CBA2-1616-4B28-9356-E6F659E43AF7Q56437374-74712FEF-E522-4F82-9477-796E319F66F9Q56522669-528DC36D-34F9-4B21-9EEC-F7A6266D9A14Q56806449-10E7C9BD-43FE-454D-AE9E-86BAF3FDE80AQ56929431-1B28C4B7-9821-4E07-A17D-5C995FBCA849Q56929446-51B03655-FE84-4107-943A-1A6C083B376DQ57206128-4B1ABA2B-60B4-4CE2-B3D7-C8A1EB7968D9
P2860
Modelling the nutritional ecology of ungulate herbivores: evolution of body size and competitive interactions.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年学术文章
@wuu
1992年学术文章
@zh
1992年学术文章
@zh-cn
1992年学术文章
@zh-hans
1992年学术文章
@zh-my
1992年学术文章
@zh-sg
1992年學術文章
@yue
1992年學術文章
@zh-hant
name
Modelling the nutritional ecol ...... and competitive interactions.
@en
Modelling the nutritional ecol ...... and competitive interactions.
@nl
type
label
Modelling the nutritional ecol ...... and competitive interactions.
@en
Modelling the nutritional ecol ...... and competitive interactions.
@nl
prefLabel
Modelling the nutritional ecol ...... and competitive interactions.
@en
Modelling the nutritional ecol ...... and competitive interactions.
@nl
P356
P1433
P1476
Modelling the nutritional ecol ...... and competitive interactions.
@en
P2093
A W Illius
I J Gordon
P2860
P2888
P304
P356
10.1007/BF00317422
P407
P577
1992-03-01T00:00:00Z