Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/effects-of-soil-texture-and-precipitation-on-above-ground-net-primary-Ip6GYYswNN
References (48)
-
A. Knapp, J. Fahnestock, S. Hamburg, L. Statland, T. Seastedt, D. Schimel (1993)
Landscape Patterns in Soil‐Plant Water Relations and Primary Production in Tallgrass PrairieEcology, 74
-
H. Tsoar (1990)
The ecological background, deterioration and reclamation of desert dune sand.Agriculture, Ecosystems & Environment, 33
-
Hamid Alizai, L. Hulbert (1970)
EFFECTS OF SOIL TEXTURE ON EVAPORATIVE LOSS AND AVAILABLE WATER IN SEMI-ARID CLIMATESSoil Science, 110
-
S. Jalota, S. Prihar (1986)
Effects of atmospheric evaporativity, soil type and redistribution time on evaporation from bare soilSoil Research, 24
-
Soriano Soriano, Sala Sala (1983)
Ecological strategies in a Patagonian arid steppeVegetatio, 56
-
Lemon Lemon (1956)
The potentialities for decreasing soil moisture evaporation lossSoil Sci. Soc. Proc., 20
-
Jalota Jalota, Prihar Prihar (1986)
Effects of atmospheric evaporativity, soil type and redistribution time on evaporation from bare soilAust. J. Soil Res., 24
-
Barnes Barnes, Harrison Harrison (1982)
Species distribution and community organization in a Nebraska Sandhills mixed prairie as influenced by plant/soil‐water relationshipsOecologia (Berl.), 52
-
Daubenmire Daubenmire (1959)
A canopy coverage method of vegetational analysisNorthwest Sci., 33
-
A. Knapp (1984)
Post-burn differences in solar radiation, leaf temperature and water stress influencing production in a lowland tallgrass prairieAmerican Journal of Botany, 71
-
C. Kucera (1992)
Tall-grass prairieEcosystems of the world
-
D. Coffin, W. Lauenroth (1990)
A gap dynamics simulation model of succession in a semiarid grasslandEcological Modelling, 49
-
J. Ovington, Dale Haitkamp, D. Lawrence (1963)
Plant Biomass and Productivity of Prairie, Savanna, Oakwood, and Maize Field Ecosystems in Central MinnesotaEcology, 44
-
Le Houérou (1984)
Rain use efficiency: a unifying concept in arid-land ecologyJournal of Arid Environments, 7
-
Guowei Sun, D. Coffin, W. Lauenroth (1997)
Comparison of root distributions of species in North American grasslands using GISJournal of Vegetation Science, 8
-
G. Tomanek, G. Hulett (1970)
Effects of Historical Droughts on Grassland Vegetation in the Central Great Plains -
M. Abrams, A. Knapp, L. Hulbert (1986)
A TEN‐YEAR RECORD OF ABOVEGROUND BIOMASS IN A KANSAS TALLGRASS PRAIRIE: EFFECTS OF FIRE AND TOPOGRAPHIC POSITIONAmerican Journal of Botany, 73
-
W. Reiners (1972)
Structure and Energetics of Three Minnesota ForestsEcological Monographs, 42
-
Liang Liang, Hazlett Hazlett, Lauenroth Lauenroth (1989)
Biomass dynamics and water use efficiencies of five plant communities in the shortgrass steppeOecologia (Berlin), 80
-
Knapp Knapp (1984b)
Water relations and growth of three grasses during wet and drought years in a tallgrass prairieOecologia (Berl.), 65
-
Weaver Weaver, Darland Darland (1949)
Soil‐root relationships of certain native grasses in various soil typesEcol. Monogr., 19
-
W. Parton, J. Scurlock, D. Ojima, T. Gilmanov, R. Scholes, D. Schimel, T. Kirchner, J. Menaut, T. Seastedt, E. Moya, A. Kamnalrut, J. Kinyamario (1993)
Observations and modeling of biomass and soil organic matter dynamics for the grassland biome worldwideGlobal Biogeochemical Cycles, 7
-
D. Schimel, T. Kittel, A. Knapp, T. Seastedt, W. Parton, V. Brown (1991)
Physiological Interactions Along Resource Gradients in a Tallgrass PrairieEcology, 72
-
W. Lauenroth, H. Hunt, D. Swift, J. Singh (1986)
Estimating aboveground net primary production in grasslands: a simulation approachEcological Modelling, 33
-
E. Lemon (1956)
The Potentialities for Decreasing Soil Moisture Evaporation Loss1Soil Science Society of America Journal, 20
-
B. Cosby, G. Hornberger, R. Clapp, T. Ginn (1984)
A Statistical Exploration of the Relationships of Soil Moisture Characteristics to the Physical Properties of SoilsWater Resources Research, 20
-
J. Hide (1954)
Observations on Factors Influencing the Evaporation of Soil MoistureSoil Science Society of America Journal, 18
-
W. Lauentroth, D. Milchunas (1992)
Short-grass steppeEcosystems of the world
-
Hide Hide (1954)
Observations on factors influencing the evaporation of soil moistureSoil Sci. Soc. Proc., 18
-
W. Parton, D. Schimel, C. Cole, D. Ojima (1987)
Analysis of factors controlling soil organic matter levels in Great Plains grasslandsSoil Science Society of America Journal, 51
-
Lauenroth Lauenroth, Dodd Dodd, Sims Sims (1978)
The effects of water‐ and nitrogen‐induced stresses on plant community structure in a semi‐arid grasslandOecologia, 36
-
J. Weaver, R. Darland (1949)
Soil‐Root Relationships of Certain Native Grasses in Various Soil TypesAgronomy Journal
-
P. Barnes, L. Tieszen, D. Ode (1983)
Distribution, production, and diversity of C3- and C4-dominated communities in a mixed prairieBotany, 61
-
I. Noy‐Meir (1973)
Desert Ecosystems: Environment and ProducersAnnual Review of Ecology, Evolution, and Systematics, 4
-
Parton Parton, Schimel Schimel, Cole Cole, Ojima Ojima (1987)
Analysis of factors controlling soil organic matter levels on grasslandsSoil Sci. Soc. Am. J., 51
-
Tomanek Tomanek (1964)
Some soil‐vegetation relationships in western KansasAm. Soc. Agronomy Spec. Pub., 5
-
A. Klute (1988)
Methods of soil analysis. Part 1. Physical and mineralogical methods.Soil Science, 146
-
R. Ott. (1977)
An introduction to statistical methods and data analysis -
H. Epstein, W. Lauenroth, I. Burke (1997)
EFFECTS OF TEMPERATURE AND SOIL TEXTURE ON ANPP IN THE U.S. GREAT PLAINSEcology, 78
-
I. Burke, W. Lauenroth, W. Parton (1997)
REGIONAL AND TEMPORAL VARIATION IN NET PRIMARY PRODUCTION AND NITROGEN MINERALIZATION IN GRASSLANDSEcology, 78
-
Coffin Coffin, Lauenroth Lauenroth (1990)
A gap dynamics simulation model of succession in the shortgrass steppeEcol. Model., 49
-
H. Epstein, W. Lauenroth, I. Burke, D. Coffin (1996)
Ecological responses of dominant grasses along two climatic gradients in the Great Plains of the United StatesJournal of Vegetation Science, 7
-
W. Lauenroth, O. Sala (1992)
Long-Term Forage Production of North American Shortgrass Steppe.Ecological applications : a publication of the Ecological Society of America, 2 4
-
W. Hickson
Effects of atmosphere -
J. Briggs, A. Knapp (1995)
Interannual variability in primary production in tallgrass prairie: climate, soil moisture, topographic position, and fire as determinants of aboveground biomassAmerican Journal of Botany, 82
-
I. Burke, C. Yonker, W. Parton, C. Cole, K. Flach, D. Schimel (1989)
Texture, climate, and cultivation effects on soil organic matter content in U.S. grassland soilsSoil Science Society of America Journal, 53
-
O. Sala, W. Parton, L. Joyce, W. Lauenroth (1988)
Primary Production of the Central Grassland Region of the United StatesEcology, 69
-
J. Borchert (1950)
The Climate of the Central North American GrasslandAnnals of The Association of American Geographers, 40
- Publisher
- Wiley
- Copyright
- 1998 IAVS ‐ the International Association of Vegetation Science
- ISSN
- 1100-9233
- eISSN
- 1654-1103
- DOI
- 10.2307/3237123
- Publisher site
- See Article on Publisher Site
Abstract
Abstract. A potentially important organizing principle in arid and semi‐arid systems is the inverse‐texture hypothesis which predicts that plant communities on coarse‐textured soils should have higher above‐ground net primary productivity (ANPP) than communities on fine‐textured soils; the reverse is predicted to occur in humid regions. Our objectives were: (1) to test predictions from the inverse‐texture hypothesis across a regional precipitation gradient, and (2) to evaluate changes in community composition and basal cover on coarse‐ and fine‐textured soils across this gradient to determine how these structural parameters may affect ANPP. Sites were located along a precipitation gradient through the Central Grassland region of the United States: mean annual precipitation ranges from 311 mm/y to 711 mm/y, whereas mean annual temperature ranges from 9 °C to 11 °C. For both coarse‐ and fine‐textured sites in 1993 and 1994, August ‐ July precipitation in the year of the study explained greater than 92% of the variability in ANPP. Soil texture did not explain a significant proportion of the variability in ANPP. However, soil texture did affect the proportion of ANPP contributed by different functional types. Forbs and shrubs made up a larger proportion of total ANPP on coarse‐ compared to fine‐textured sites. Shrubs contributed more to ANPP at the drier end of the gradient. Basal cover of live vegetation was not significantly related to precipitation and was similar for both soil textures. Our results revealed that across a regional precipitation gradient, soil texture may play a larger role in determining community composition than in determining total ANPP.
Journal
Journal of Vegetation Science – Wiley
Published: Apr 1, 1998