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K. Mccree (1974)
Equations for the Rate of Dark Respiration of White Clover and Grain Sorghum, as Functions of Dry Weight, Photosynthetic Rate, and Temperature1Crop Science, 14
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Brouwer Brouwer (1963a)
Some physiological aspects of the influence of growth factors in the root medium on the growth and dry matter productionJaarb. Inst. Bodemscheikunde, 212
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Cyanide‐Resistant Root Respiration and Tap Root Formation in Two Subspecies of Hypochaeris radicataPhysiologia Plantarum, 45
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EFFICIENCY OF ROOT RESPIRATION OF A FLOOD-TOLERANT AND A FLOOD-INTOLERANT SENECIO SPECIES AS AFFECTED BY LOW OXYGEN-TENSIONPhysiologia Plantarum, 42
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H. Lambers, G. Smakman (1978)
Respiration of the Roots of Flood-Tolerant and Flood-Intolerant Senecio Species: Affinity for Oxygen and Resistance to CyanidePhysiologia Plantarum, 42
H. Lambers, E. Steingröver (1978)
GROWTH RESPIRATION OF A FLOOD-TOLERANT AND A FLOOD-INTOLERANT SENECIO SPECIES - CORRELATION BETWEEN CALCULATED AND EXPERIMENTAL VALUESPhysiologia Plantarum, 43
G. Kleinkopf, A. Wallace (1974)
Physiological basis for salt tolerance in Tamarix ramosissimaPlant Science Letters, 3
H. Lambers, E. Steingröver, G. Smakman (1978)
The Significance of Oxygen Transport and of Metabolic Adaptation in Flood‐Tolerance of Senecio SpeciesPhysiologia Plantarum, 43
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G. Hansen, C. Jensen (1977)
Growth and Maintenance Respiration in Whole Plants, Tops, and Roots of Lolium multiflorumPhysiologia Plantarum, 39
D. Otzen (1977)
LIFE FORMS OF THREE SENECIO SPECIES IN RELATION TO ACCUMULATION AND UTILIZATION OF NON‐STRUCTRAL CARBOHYDRATES, 26
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Utilization of Photosynthates for Growth, Respiration, and Storage in Tops and Roots of Lolium multiflorumPhysiologia Plantarum, 42
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An analysis of the diurnal course of growth, carbon dioxide exchange and carbohydrate reserve content of cucumber
U. Zimmermann, J. Dainty (1974)
Membrane Transport in Plants
Tom Boon-Long (1941)
TRANSPIRATION AS INFLUENCED BY OSMOTIC CONCENTRATION AND CELL PERMEABILITYAmerican Journal of Botany, 28
Brouwer Brouwer (1967)
Beziehungen zwischen Spross und WurzelwachstumAngew. Bot., 41
Wanner Wanner (1950a)
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U. Zimmermann, E. Steudle (1974)
Hydraulic Conductivity and Volumetric Elastic Modulus in Giant Algal Cells: Pressure- and Volume-Dependence
Brouwer Brouwer (1963b)
Some aspects of (he equilibrium between overground and underground plant partsJaarb. Inst. Bodemscheikunde, 213
J. Pallas, A. Bertrand, D. Harris, C. Elkins, C. Parks (1965)
RESEARCH IN PLANT TRANSPIRATION: 1962,
Root growth respiration and root maintenance respiration rate of the following species were determined: Hypochaeris radicata L. ssp. radicata L., H. radicata ssp. ericetorum Van Soest, Plantago lanceolata L., P. major L. ssp. major, P. major ssp. pleiosperma Pilgcr, P. maritime L., Senecio viscosus L., S. vulgaris L. and Urtica dioica L. A high root growth respiration (i.e. the amount of oxygen consumed for synthesis of a given weight of root material) implied a high maintenance respiration rate (i.e. the amount of oxygen consumed per unit of time and dry weight, but not connected with growth). High values of both components reflect a low efficiency of root respiratory processes. The efficiency of root respiration, as determined by the values for root growth respiration and root maintenance respiration rate could not be demonstrated to be of advantage in adaptation to soil conditions, as e.g. nitrogen content, moisture content and pH. It is concluded that (he degree of ‘wasteful utilization of sugars’ in roots, i.e. such consumption of sugars as cannot be related to structural growth, storage of carbohydrates or maintenance processes, depends on imbalance of transport of sugars from the shoot to the roots with utilization of sugars for synthesis of root material. The results are discussed in relation to Brouwer's explanation for the equilibrium between the growth of shoots and of roots. Root growth rate in the present species appears limited by a factor produced in the shoot under light conditions, and which factor is distinct from carbohydrates. The evidence presented shows that relatively inefficient root respiration does not imply a low growth rate. In regulation of plant growth the growth rate itself and also the shoot to‐root ratio may be more important than the regulation of the efficiency of energy metabolism.
Physiologia Plantarum – Wiley
Published: Jun 1, 1979
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