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References (43)
-
S. Magat, K. Goh (1988)
Effects of chloride fertilizers on yield and uptake of chloride, potassium and sodium by fodder beet (Beta vulgaris L.) in two New Zealand soilsThe Journal of Agricultural Science, 111
-
CG janson (1975)
Autumn lucerne establishment under irrigation with cover crops and herbicidesNZJ Expt Agric, 3
-
RHM Langer (1990)
Pastures -
M. Schoeneberger, R. Volk, C. Davey (1989)
Factors influencing early performance of leguminous plants in forest soilsSoil Science Society of America Journal, 53
-
ME Avery (1991)
Biophysical Research for Asian Agroforestry -
I. Mansur, Jawa Barat (1993)
VECTOR ANALYSIS OF FOLIAGE DATA TO STUDY COMPETITION FOR NUTRIENTS AND MOISTURE: AN AGROFORESTRY EXAMPLE -
RH Jackman, MC Mouat (1972)
Competition between grass and clovers for phosphate. Part IINZJ Ag Res, 15
-
SS Magat, KM Goh (1988)
Effects of chloride fertiliser on yield and uptake of chloride, potassium and sodium by fodder beet (Beta vulgaris L.) in two New Zealand soilsJ Agric Sci, Cambridge, 111
-
I. Yunusa, D. Mead, R. Lucas, K. Pollock (1995)
Process studies in aPinus radiata-pasture agroforestry system in a subhumid temperature environment. II. Analysis of dry matter yields in the third yearAgroforestry Systems, 32
-
PEH Gregg, KM Goh, DW Brash (1977)
Isotope studies on the uptake of sulphur by pasture plants under field conditions. II. Uptake from various soil depths at several field sitesNZJ Ag Res, 20
-
K. Grewal, G. Buchan, R. Sherlock (1991)
A comparison of three methods of organic carbon determination in some New Zealand soilsEuropean Journal of Soil Science, 42
-
R. Roughley, P. Dart (1970)
Growth of Trifolium subterraneum L. Selected for Sparse and Abundant Nodulation as Affected by Root Temperature and Rhizobium StrainJournal of Experimental Botany, 21
-
L. Nesheim, B. Boller (1991)
Nitrogen fixation by white clover when competing with grasses at moderately low temperaturesPlant and Soil, 133
-
(1987)
SAS/STAT Guide for Personal Computer, Version 6 -
B. Boller, J. Nösberger (1988)
Influence of dissimilarities in temporal and spatial N-uptake patterns on15N-based estimates of fixation and transfer of N in ryegrass-clover mixturesPlant and Soil, 112
-
S. Ledgard, G. Brier, R. Watson (1988)
NEW CLOVER CULTIVARS FOR WAIKATO DAIRY PASTURE: ESTABLISHMENT, PRODUCTION AND NITROGEN FIXATION DURING THE FIRST YEAR -
P Cookson, KM Goh, RS Swift, KW Steele (1990)
Effects of frequency of application of 15N tracer and rate of fertiliser nitrogen applied on estimation of nitrogen fixation by an established mixed grass+clover pasture using 15N-enriched techniqueNZJ Agric Res, 33
-
E. Vartha (1975)
Comparative annual and seasonal growth of three ryegrass varieties and cocksfoot at Lincoln, CanterburyNew Zealand journal of experimental agriculture, 3
-
(1991)
Interactions of light, water and nutrients in agroforestry system -
(1981)
Nitrogen fixation by legume understorey in karry (Eucalyptus diversicolor) forest. In: Gibson AH and Newton WE (eds) Current Prospectives in Nitrogen Fixation, pp 505 -
NS Percival, DI Bond, MF Hawke, LJ Cranshaw, BL Andrew, RL Knowles (1984)
Proc Tech Workshop on Agroforestry, Dunedin -
R. Ziehm, H. Pearson, T. Thurow, V. Baldwin (1992)
Pine growth response to management of the subterranean clover understoryAgroforestry Systems, 20
-
J. Baars, J. Douglas, T. Knight, C. Janson (1990)
Growth rates and relationships between weather and growth rates for lucerne (Medicago sativa L.) in Canterbury and the Rotorua-Taupo region, 52
-
D. Mead (1995)
The role of agroforestry in industrialized nations: the southern hemisphere perspective with special emphasis on Australia and New ZealandAgroforestry Systems, 31
-
J. Sprent, W. Silvester (1973)
NITROGEN FIXATION BY LUPINUS ARBOREUS GROWN IN THE OPEN AND UNDER DIFFERENT AGED STANDS OF PINUS RADIATANew Phytologist, 72
-
R. Jackman, M. Mouat (1972)
Competition between grass and clover for phosphateNew Zealand Journal of Agricultural Research, 15
-
K. Pollock, R. Lucas, D. Mead, S. Thomson (1994)
Forage-pasture production in the first three years of an agroforestry experiment -
EW Vartha (1975)
Comparative annual and seasonal growth of three ryegrass varieties and cocksfoot at Lincoln, CanterburyNZJ Expt Agric, 3
-
Mary Viera-Vargas, C. Souto, S. Urquiaga, R. Boddey (1995)
Quantification of the contribution of N2 fixation to tropical forage legumes and transfer to associated grassSoil Biology & Biochemistry, 27
-
P. Cookson, K. Goh, R. Swift, K. Steele (1990)
Effects of frequency of application of 15N tracer and rate of fertiliser nitrogen applied on estimation of nitrogen fixation by an established mixed grass/clover pasture using the 15N-enrichment techniqueNew Zealand Journal of Agricultural Research, 33
-
E. Nambiar, K. Nethercott (1987)
Nutrient and water availability to and growth of young radiata pine plantations intercropped with lupinsNew Forests, 1
-
R. Kumarasinghe, P. Nutman (1979)
The Influence of Temperature on Root Hair Infection of Trifolium parviflorum and T. glomeratum by Root Nodule Bacteria I. THE EFFECTS OF CONSTANT ROOT TEMPERATURE ON INFECTION AND RELATED ASPECTS OF PLANT DEVELOPMENTJournal of Experimental Botany, 30
-
D. Mead, J., Lucas, E. Mason
Studying interactions between pastures and Pinus radiata in Canterbury ' s subhumid temperate environment-the first two years -
P. Gregg, K. Goh, D. Brash (1977)
Isotopic studies on the uptake of sulphur by pasture plants: II. Uptake from various soil depths at several field sitesNew Zealand Journal of Agricultural Research, 20
-
TA Lie (1981)
Nitrogen Fixation, Vol I. Ecology -
T. Lie (1981)
Environmental physiology of the legume-Rhizobium symbiosis -
(1991)
Nitrogen fixing plant interactions in agroforestry -
TS Grove, N Malajczuk (1981)
Current Prospectives in Nitrogen Fixation -
K. Goh, G. Ridgen, M. Daly (1995)
Understorey biomass production and biological nitrogen fixation in an organic Apple orchard in Canterbury, New ZealandCommunications in Soil Science and Plant Analysis, 26
-
I. Yunusa, D. Mead, K. Pollock, R. Lucas (1995)
Process studies in aPinus radiata-pasture agroforestry system in a subhumid temperature environment. I. Water use and light interception in the third yearAgroforestry Systems, 32
-
K. Goh, D. Edmeades, B. Robinson (1978)
Field measurements of symbiotic nitrogen fixation in an established pasture using acetylene reduction and a 15N methodSoil Biology & Biochemistry, 10
-
C. Janson (1975)
Autumn lucerne establishment under irrigation with cover crops and herbicidesNew Zealand journal of experimental agriculture, 3
-
(1984)
Effects of radiata pine on pasture yields, botanical composition, weed population and production of a range of grasses
- Publisher
- Springer Journals
- Copyright
- Copyright
- Subject
- Life Sciences; Forestry; Agriculture
- ISSN
- 0167-4366
- eISSN
- 1572-9680
- DOI
- 10.1007/BF00129631
- Publisher site
- See Article on Publisher Site
Abstract
Quantitative field measurements of biological nitrogen fixation (BNF) and biomass production by four different understorey pastures in a Pinus radiata-pasture agroforestry system were determined over a period of one year. The trees were two years old at the beginning of this study and the understorey pastures were being cut and removed for silage. The BNF was determined using the 15N dilution technique. Pastures of ryegrass+clover, cocksfoot+clover, phalaris+clover and lucerne were used. Substantial amounts of BNF were found (71 to 230 kg N ha−1 year−1) with lucerne showing the highest N fixation. However, lucerne derived only 71 to 72% of its N from the atmosphere (%Ndfa) during the spring/summer period compared to 83–97% with clovers, thus the net N demand from the soil was substantially higher with lucerne. This caused increased N stress to the trees. Clover in ryegrass+clover pasture fixed more N than the other grass+clover pastures. Although pasture position in relation to trees did not affect annual pasture total DMY and %Ndfa, pastures north of tree row grew better than those in other positions. Trees significantly affected the BNF of legumes and the botanical composition of pastures with highest BNF and legume production occurring in pastures midway between two rows of trees. These results suggest that it would be advantageous to evaluate different legumes and grasses for tolerance of shade and moisture stress in future studies. As the trees studied were only 1.5 to 3 m in height, their effects on BNF, seasonal pasture biomass production and botanical composition are expected to increase with tree dominance in the ecosystem with time. Amounts of N fixed were related to the productivity (i.e. dry matter and N yield) and seasonal persistence of the legumes. The productivity was high in spring and summer and low in autumn and winter.
Journal
Agroforestry Systems – Springer Journals
Published: May 31, 2004