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S. Thien, W. Mcfee (1972)
Effect of Nitrogen on Phosphorus Transport Systems in Zea Mays L.Soil Science Society of America Journal, 36
R. Snaydon (1962)
Micro-Distribution of Trifolium Repens L. and Its Relation to Soil FactorsJournal of Ecology, 50
M. Al-Mufti, C. Sydes, S. Furness, J. Grime, S. Band (1977)
A QUANTITATIVE ANALYSIS OF SHOOT PHENOLOGY AND DOMINANCE IN HERBACEOUS VEGETATIONJournal of Ecology, 65
F. Milthorpe, J. Moorby (1974)
An Introduction to Crop Physiology
F. Chapin, R. Barsdate, D. Barèl (1978)
Phosphorus cycling in Alaskan coastal tundra: a hypothesis for the regulation of nutrient cyclingOikos, 31
A. Harrison, D. Helliwell (1979)
A BIOASSAY FOR COMPARING PHOSPHORUS AVAILABILITY IN SOILSJournal of Applied Ecology, 16
Author Grime (1977)
Evidence for the Existence of Three Primary Strategies in Plants and Its Relevance to Ecological and Evolutionary TheoryThe American Naturalist, 111
J. Grime, A. Curtis (1976)
The Interaction of Drought and Mineral Nutrient Stress in Calcareous GrasslandJournal of Ecology, 64
D. Greenwood, A. Barnes, T. Cleaver (1978)
Measurement and prediction of the changes in protein contents of field crops during growthThe Journal of Agricultural Science, 91
D. Hoagland, T. Broyer (1936)
GENERAL NATURE OF THE PROCESS OF SALT ACCUMULATION BY ROOTS WITH DESCRIPTION OF EXPERIMENTAL METHODS.Plant physiology, 11 3
R. Reader (1978)
Contribution of overwintering leaves to the growth of three broad-leaved, evergreen shrubs belonging to the Ericaceae familyBotany, 56
D. Tilton (1977)
Seasonal growth and foliar nutrients of Larix laricina in three wetland ecosystemsBotany, 55
D. Wright, R. Blaser, J. Woodruff (1978)
Seedling Emergence as Related to Temperature and Moisture Tension1Agronomy Journal, 70
A. Mahmoud, J. Grime (1976)
AN ANALYSIS OF COMPETITIVE ABILITY IN THREE PERENNIAL GRASSESNew Phytologist, 77
C. Olsen (1948)
The mineral, nitrogen and sugar content of beech leaves and beech leaf sap at various times., 26
T. Weaver, J. Grime (1980)
Plant Strategies and Vegetation Processes.Journal of Ecology, 68
P. Ramakrishnan, U. Gupta (1973)
Nitrogen, Phosphorus, and Potassium Nutrition of the Edaphic Ecotypes in Cynodon dactylon (L.) Pers.Annals of Botany, 37
M. Drew, L. Saker (1975)
Nutrient Supply and the Growth of the Seminal Root System in Barley II. LOCALIZED, COMPENSATORY INCREASES IN LATERAL ROOT GROWTH AND RATES OP NITRATE UPTAKE WHEN NITRATE SUPPLY IS RESTRICTED TO ONLY PART OF THE ROOT SYSTEMJournal of Experimental Botany, 26
F. Bazzaz, J. Harper (1977)
DEMOGRAPHIC ANALYSIS OF THE GROWTH OF LINUM USITATISSIMUMNew Phytologist, 78
J. Harley, R. Russell (1979)
The Soil-Root Interface
N. Comerford, E. White (1977)
Nutrient content of throughfall in paper birch and red pine stands in northern MinnesotaCanadian Journal of Forest Research, 7
N. Grundon (1972)
MINERAL NUTRITION OF SOME QUEENSLAND HEATH PLANTSJournal of Ecology, 60
D. WJeffrey (1964)
The Formation of Polyphosphate in Banksia Ornata, an Australian Heath PlantAustralian Journal of Biological Sciences, 17
N. Barrow (1977)
Phosphorus Uptake and Utilization by Tree Seedlings
N. Beadle (1954)
Soil Phosphate and the Delimitation of Plant Communities in Eastern AustraliaEcology, 35
J. Zasada, L. Tieszen (1980)
Vegetation and Production Ecology of an Alaskan Arctic TundraJournal of Applied Ecology, 17
J. Dennis, P. Johnson (1970)
Shoot and rhizome-root standing crops of tundra vegetation at Barrow, Alaska.Arctic and alpine research, 2
R. Snaydon, A. Bradshaw (1961)
DIFFERENTIAL RESPONSE TO CALCIUM WITHIN THE SPECIES FESTUCA OVINA L.New Phytologist, 60
E. Heddle, R. Specht (1963)
Dark island heath (ninety-mile plain, South Australia). VIII.* The effect of fertilizers on composition and growth, 1950-1972Australian Journal of Botany, 23
(1959)
Influence of phosphate on the botanical composition and on the grade of quality of herbage.
A. Loveless (1961)
A Nutritional Interpretation of Sclerophylly Based on Differences in the Chemical Composition of Sclerophyllous and Mesophytic LeavesAnnals of Botany, 25
C. Cole, D. Grunes, L. Porter, S. Olsen (1963)
The Effects of Nitrogen on Short-Term Phosphorus Absorption and Translocation in Corn (Zea Mays) 1Soil Science Society of America Journal, 27
D. Grigal, L. Ohmann, R. Brander (1976)
Seasonal Dynamics of Tall Shrubs in Northeastern Minnesota: Biomass and Nutrient Element ChangesForest Science, 22
R. Hunt, J. Burnett (1973)
The Effects of Light Intensity and External Potassium Level on Root/Shoot Ratio and Rates of Potassium Uptake in Perennial Ryegrass (Lolium perenne L.)Annals of Botany, 37
J. Proctor, S. Woodell (1975)
The Ecology of Serpentine SoilsAdvances in Ecological Research, 9
H. Miller, J. Cooper, J. Miller (1976)
Effect of Nitrogen Supply on Nutrients in Litter Fall and Crown Leaching in a Stand of Corsican PineJournal of Applied Ecology, 13
G. Shaver, F. Chapin (1980)
Response to fertilization by various plant growth forms in an Alaskan tundra: nutrient accumulation and growthEcology, 61
I. Cowan, G. Farquhar (1977)
INTEGRATION OF ACTIVITY IN THE HIGHER PLANT
R. Marrs (1978)
Seasonal Changes and Multivariate Studies of the Mineral Element Status of Several Members of the EricaceaeJournal of Ecology, 66
N. Beadle (1966)
Soil Phosphate and Its Role in Molding Segments of the Australian Flora and Vegetation, with Special Reference to Xeromorphy and SclerophyllyEcology, 47
A. Loveless (1962)
Further Evidence to Support a Nutritional Interpretation of SclerophyllyAnnals of Botany, 26
T. Fagerström, U. Lohm (1977)
Groth in Scots pine (Pinus silvestris L.) : Mechanism of response to nitrogenOecologia, 26
G. Woodwell, R. Whittaker, R. Houghton (1975)
Nutrient Concentrations in Plants in the Brookhaven Oak-Pine ForestEcology, 56
J. Loneragan, C. Asher (1967)
RESPONSE OF PLANTS TO PHOSPHATE CONCENTRATION IN SOLUTION CULTURE: II. RATE OF PHOSPHATE ABSORPTION AND ITS RELATION TO GROWTHSoil Science, 103
R. Jefferies (1977)
GROWTH RESPONSES OF COASTAL HALOPHYTES TO INORGANIC NITROGENJournal of Ecology, 65
D. Jowett (1959)
Summaries of Addresses of Presidents of Sections: Man and the World's FaunaNature, 184
P. Vose (1963)
Varietal Differences in Plant NutritionSoil Science, 96
E. Greenwood (1976)
Nitrogen Stress in PlantsAdvances in Agronomy, 28
B. Mosse (1973)
Advances in the Study of Vesicular-Arbuscular MycorrhizaAnnual Review of Phytopathology, 11
F. Vries (1975)
The cost of maintenance processes in plant cellsAnnals of Botany, 39
I. Phosphate, R. Snaydon, A. Bradshaw (1962)
Differences between Natural Populations of Trifolium repens L. in Response to Mineral NutrientsJournal of Experimental Botany, 13
Charles Garten (1978)
Multivariate Perspectives on the Ecology of Plant Mineral Element CompositionThe American Naturalist, 112
M. Hirrel, H. Mehravaran, J. Gerdemann (1978)
Vesicular–arbuscular mycorrhizae in the Chenopodiaceae and Cruciferae: do they occur?Botany, 56
Charles Garten (1976)
Correlations between concentrations of elements in plantsNature, 261
G. Shaver, W. Billings (1975)
Root Production and Root Turnover in a Wet Tundra Ecosystem, Barrow, AlaskaEcology, 56
J. Grime, R. Hunt (1975)
Relative growth-rate: its range and adaptive significance in a local flora.Journal of Ecology, 63
Jr. Tukey (1970)
The Leaching of Substances from PlantsAnnual Review of Plant Biology, 21
P. Nye (1977)
THE RATE‐LIMITING STEP IN PLANT NUTRIENT ABSORPTION FROM SOILSoil Science, 123
Richard Harner, K. Harper (1973)
Mineral composition of grassland species of the Eastern Great Basin in relation to stand productivityBotany, 51
G. Ryle, J. Hesketh (1969)
Carbon Dioxide Uptake in Nitrogen‐Deficient Plants 1Crop Science, 9
R. Groves, K. Keraitis (1976)
Survival and Growth of Seedlings of Three Sclerophyll Species at High Levels of Phosphorus and NitrogenAustralian Journal of Botany, 24
H. Musick (1978)
Phosphorus Toxicity in Seedlings of Larrea divaricata Grown in Solution CultureBotanical Gazette, 139
J. Turner, P. Olson (1976)
Nitrogen Relations in a Douglas-fir PlantationAnnals of Botany, 40
F. Chapin, Douglas Johnson, J. McKendrick (1980)
Seasonal movement of nutrients in plants of differing growth form in an Alaskan tundra ecosystem: implications for herbivory.Journal of Ecology, 68
F. Chapin (1974)
MORPHOLOGICAL AND PHYSIOLOGICAL MECHANISMS OF TEMPERATURE COMPENSATION IN PHOSPHATE ABSORPTION ALONG A LATITUDINAL GRADIENTEcology, 55
A. Harrison (1979)
Variation of four phosphorus properties in woodland soilsSoil Biology & Biochemistry, 11
H. Mooney, P. Rundel (1979)
Nutrient Relations of the Evergreen Shrub, Adenostoma fasciculatum, in the California ChaparralBotanical Gazette, 140
I. Rorison (1968)
THE RESPONSE TO PHOSPHORUS OF SOME ECOLOGICALLY DISTINCT PLANT SPECIESNew Phytologist, 67
R. Jefferies, N. Perkins (1977)
The Effects on the Vegetation of the Additions of Inorganic Nutrients to Salt Marsh Soils at Stiffkey, NorfolkJournal of Ecology, 65
T. Ingestad (1976)
Nitrogen and Cation Nutrition of Three Ecologically Different Plant SpeciesPhysiologia Plantarum, 38
BY Bradshaw, M. Chadwick, D. JOWETTt, R. Snaydon (1964)
Experimental Investigations into the Mineral Nutrition of Several Grass Species: IV. Nitrogen LevelJournal of Ecology, 52
P. Gupta, I. Rorison (1975)
Seasonal Differences in the Availability of Nutrients Down a Podzolic ProfileJournal of Ecology, 63
R. Hunt, F. Bazzaz (1980)
THE BIOLOGY OF AMBROSIA TRIFIDA L. V.RESPONSE TO FERTILIZER, WITH GROWTH ANALYSIS AT THE ORGANISMAL AND SUB‐ORGANISMAL LEVELSNew Phytologist, 84
E. Small (1972)
Photosynthetic rates in relation to nitrogen recycling as an adaptation to nutrient deficiency in peat bog plantsBotany, 50
W. Thomas, D. Grigal (1976)
Phosphorus conservation by evergreenness of mountain laurelOikos, 27
J. Antonovics, A. Bradshaw, R. Turner (1971)
Heavy Metal Tolerance in PlantsAdvances in Ecological Research, 7
F. Chapin, A. Bloom (1976)
Phosphate absorption: adaptation of tundra graminoids to a low temperature, low phosphorus environmentOikos, 27
C. Campbell, V. Biederbeck, F. Warder (1971)
Influence of Simulated Fall and Spring Conditions on the Soil System: II. Effect on Soil NitrogenSoil Science Society of America Journal, 35
F. Hills, R. Sailsbery, A. Ulrich, Konstantinos Sipitanos (1970)
Effect of Phosphorus on Nitrate in Sugar Beet (Beta vulgaris L.)Agronomy Journal, 62
Our understanding of plant mineral nutrition comes largely from studies of herbaceous crops that evolved from ruderal species characteristic of nutri ent-rich disturbed sites (52). With the development of agriculture, these ancestral species were bred for greater productivity and reproductive output at high nutrient levels where there was little selective advantage in efficient nutrient use. This paper briefly reviews the nature of crop responses to nutrient stress and compares these responses to those of species that have evolved under more natural conditions, particularly in low-nutrient envi ronments. I draw primarily upon nutritional studies of nitrogen and phos phorus because these elements most commonly limit plant growth and because their role in controlling plant growth and metabolism is most clearly understood (51). Other more specific aspects of nutritional plant ecology not discussed here include ammonium/nitrate nutrition (79), cal cicole/calcifuge nutrition (51,88),heavy metal tolerance (4), and serpentine ecology (133). CROP NUTRITION Nutrient Absorption ROOT-SOIL INTERACTIONS The rate of nutrient absorption by a root depends upon both nutrient supply to the root surface and active absorption by root cortical cells. Nutrient supply to the root surface depends upon (a) soil solution concentration,(b) buffering power of the soil (i.e. capacity of soil
Annual Review of Ecology, Evolution, and Systematics – Annual Reviews
Published: Nov 1, 1980
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