All Stories

  1. The pervasive use of P 2 O 5 , K 2 O, CaO, MgO and other molecules that do not exist in soil or fertiliser bags
  2. Edaphic niche characterization of four Proteaceae reveals unique calcicole physiology linked to hyper‐endemism of Grevillea thelemanniana
  3. Mineral nutrition ofcampos rupestresplant species on contrasting nutrient-impoverished soil types
  4. Is nitrogen transfer among plants enhanced by contrasting nutrient‐acquisition strategies?
  5. Soil pH accounts for differences in species distribution and leaf nutrient concentrations of Brazilian woodland savannah and seasonally dry forest species
  6. Complementary plant nutrient‐acquisition strategies promote growth of neighbour species
  7. Plant diversity and overyielding: insights from belowground facilitation of intercropping in agriculture
  8. Physiological and ecological significance of biomineralization in plants
  9. Growth and phosphorus nutrition of rice when inorganic fertiliser application is partly replaced by straw under varying moisture availability in sandy and clay soils
  10. Plant Responses to Limited Moisture and Phosphorus Availability
  11. Respiration in Terrestrial Ecosystems
  12. Low levels of ribosomal RNA partly account for the very high photosynthetic phosphorus‐use efficiency of Proteaceae species
  13. Foliar nutrient concentrations and resorption efficiency in plants of contrasting nutrient‐acquisition strategies along a 2‐million‐year dune chronosequence
  14. The metabolic acclimation of Arabidopsis thaliana to arsenate is sensitized by the loss of mitochondrial LIPOAMIDE DEHYDROGENASE2, a key enzyme in oxidative metabolism
  15. Organ‐specific phosphorus‐allocation patterns and transcript profiles linked to phosphorus efficiency in two contrasting wheat genotypes
  16. The alternative respiratory pathway mediates carboxylate synthesis in white lupin cluster roots under phosphorus deprivation
  17. Moderating mycorrhizas: arbuscular mycorrhizas modify rhizosphere chemistry and maintain plant phosphorus status within narrow boundaries
  18. Trait correlation networks: a whole‐plant perspective on the recently criticized leaf economic spectrum
  19. Cluster-root formation and carboxylate release in three Lupinus species as dependent on phosphorus supply, internal phosphorus concentration and relative growth rate
  20. Does cluster-root activity benefit nutrient uptake and growth of co-existing species?
  21. Nutrient limitation along the Jurien Bay dune chronosequence: response to Uren & Parsons ()
  22. Do arbuscular mycorrhizas or heterotrophic soil microbes contribute toward plant acquisition of a pulse of mineral phosphate?
  23. How does pedogenesis drive plant diversity?
  24. Phosphorus nutrition of phosphorus-sensitive Australian native plants: threats to plant communities in a global biodiversity hotspot
  25. Interactions between arbuscular mycorrhizal and non‐mycorrhizal plants: do non‐mycorrhizal species at both extremes of nutrient availability play the same game?
  26. Erratum to: Direct measurement of roots in soil for single and mixed species using a quantitative DNA-based method
  27. Variation in nutrient-acquisition patterns by mycorrhizal fungi of rare and common orchids explains diversification in a global biodiversity hotspot
  28. Viminaria juncea does not vary its shoot phosphorus concentration and only marginally decreases its mycorrhizal colonization and cluster-root dry weight under a wide range of phosphorus supplies
  29. Acclimation responses of Arabidopsis thaliana to sustained phosphite treatments
  30. How a phosphorus-acquisition strategy based on carboxylate exudation powers the success and agronomic potential of lupines (Lupinus, Fabaceae)
  31. Commensalism in an agroecosystem: hydraulic redistribution by deep‐rooted legumes improves survival of a droughted shallow‐rooted legume companion
  32. Downregulation of net phosphorus-uptake capacity is inversely related to leaf phosphorus-resorption proficiency in four species from a phosphorus-impoverished environment
  33. Establishment, survival, and herbage production of novel, summer-active perennial pasture legumes in the low-rainfall cropping zone of Western Australia as affected by plant density and cutting frequency
  34. Seasonal and diurnal variation in the stomatal conductance and paraheliotropism of tedera (Bituminaria bituminosa var. albomarginata) in the field
  35. Soil microbial biomass and the fate of phosphorus during long-term ecosystem development
  36. Proteaceae from severely phosphorus‐impoverished soils extensively replace phospholipids with galactolipids and sulfolipids during leaf development to achieve a high photosynthetic phosphorus‐use‐efficiency
  37. Field application of a DNA-based assay to the measurement of roots of perennial grasses
  38. Adaptive shoot and root responses collectively enhance growth at optimum temperature and limited phosphorus supply of three herbaceous legume species
  39. A long-term experimental test of the dynamic equilibrium model of species diversity
  40. Precipitation of Calcium, Magnesium, Strontium and Barium in Tissues of Four Acacia Species (Leguminosae: Mimosoideae)
  41. Carbon trading for phosphorus gain: the balance between rhizosphere carboxylates and arbuscular mycorrhizal symbiosis in plant phosphorus acquisition
  42. Phosphorus-mobilization ecosystem engineering: the roles of cluster roots and carboxylate exudation in young P-limited ecosystems
  43. Opportunities for improving phosphorus‐use efficiency in crop plants
  44. Growth, carboxylate exudates and nutrient dynamics in three herbaceous perennial plant species under low, moderate and high phosphorus supply
  45. Experimental assessment of nutrient limitation along a 2-million-year dune chronosequence in the south-western Australia biodiversity hotspot
  46. Morphologies and elemental compositions of calcium crystals in phyllodes and branchlets of Acacia robeorum (Leguminosae: Mimosoideae)
  47. Arid-zone Acacia species can access poorly soluble iron phosphate but show limited growth response
  48. Underground leaves ofPhilcoxiatrap and digest nematodes
  49. Functions of Macronutrients
  50. Drought resistance at the seedling stage in the promising fodder plant tedera (Bituminaria bituminosa var. albomarginata)
  51. Development and persistence of sandsheaths of Lyginia barbata (Restionaceae): relation to root structural development and longevity
  52. Contrasting physiological responses of two co-occurring eucalypts to seasonal drought at restored bauxite mine sites
  53. Plant and microbial strategies to improve the phosphorus efficiency of agriculture
  54. Plant mineral nutrition in ancient landscapes: high plant species diversity on infertile soils is linked to functional diversity for nutritional strategies
  55. Dinitrogen‐fixing Acacia species from phosphorus‐impoverished soils resorb leaf phosphorus efficiently
  56. Response to Keeley et al.: Fire as an evolutionary pressure shaping plant traits
  57. Contrasting responses to drought stress in herbaceous perennial legumes
  58. Strategies and agronomic interventions to improve the phosphorus-use efficiency of farming systems
  59. Direct measurement of roots in soil for single and mixed species using a quantitative DNA-based method
  60. An enzymatic fluorescent assay for the quantification of phosphite in a microtiter plate format
  61. Phosphorus Nutrition of Proteaceae in Severely Phosphorus-Impoverished Soils: Are There Lessons To Be Learned for Future Crops?
  62. Above- and below-ground interactions of grass and pasture legume species when grown together under drought and low phosphorus availability
  63. Little evidence for fire-adapted plant traits in Mediterranean climate regions
  64. Soil phosphorus supply affects nodulation and N�:�P ratio in 11 perennial legume seedlings
  65. Podocarpaceae in Tropical Forests: A Synthesis
  66. Effect of soil acidity, soil strength and macropores on root growth and morphology of perennial grass species differing in acid‐soil resistance
  67. From controlled environments to field simulations: Developing a growth model for the novel perennial pasture legume Cullen australasicum
  68. Plant mineral nutrition in ancient landscapes: high plant species diversity on infertile soils is linked to functional diversity for nutritional strategies
  69. Root morphology, root-hair development and rhizosheath formation on perennial grass seedlings is influenced by soil acidity
  70. Multiple adaptive responses of Australian native perennial legumes with pasture potential to grow in phosphorus- and moisture-limited environments
  71. Localized application of soil organic matter shifts distribution of cluster roots of white lupin in the soil profile due to localized release of phosphorus
  72. Seasonal water relations of Lyginia barbata (Southern rush) in relation to root xylem development and summer dormancy of root apices
  73. Effects of leaf development and phosphorus supply on the photosynthetic characteristics of perennial legume species with pasture potential: modelling photosynthesis with leaf development
  74. Effects of phosphorus supply on growth, phosphate concentration and cluster-root formation in three Lupinus species
  75. Variation in morphological and physiological parameters in herbaceous perennial legumes in response to phosphorus supply
  76. Soil-plant interactions and sustainability of eco-agriculture in arid region: a crucially important topic to address
  77. Summer dormancy and winter growth: root survival strategy in a perennial monocotyledon
  78. Darwin as a plant scientist: a Southern Hemisphere perspective
  79. Ecophysiology of Eucalyptus marginata and Corymbia calophylla in decline in an urban parkland
  80. Variation in seedling growth of 11 perennial legumes in response to phosphorus supply
  81. Plant-microbe-soil interactions in the rhizosphere: an evolutionary perspective
  82. Population Size Effects on Progeny Performance in Banksia ilicifolia R. Br. (Proteaceae)
  83. Changes in water relations for Acacia ancistrocarpa on natural and mine-rehabilitation sites in response to an experimental wetting pulse in the Great Sandy Desert
  84. Phosphorus nutrition of Proteaceae and Cyperaceae: Strategies in biodiversity hotspots in old landscapes
  85. Intercropping alleviates the inhibitory effect of N fertilization on nodulation and symbiotic N2 fixation of faba bean
  86. Partitioning of evapotranspiration in a semi-arid eucalypt woodland in south-western Australia
  87. Root of edaphically controlled Proteaceae turnover on the Agulhas Plain, South Africa: phosphate uptake regulation and growth
  88. Leaf water relations during summer water deficit: differential responses in turgor maintenance and variation in leaf structure among different plant communities in south‐western Australia
  89. Short-term and long-term root respiratory acclimation to elevated temperatures associated with root thermotolerance for two Agrostis grass species
  90. Using multiple trait associations to define hydraulic functional types in plant communities of south-western Australia
  91. Change in Uptake, Transport and Accumulation of Ions in Nerium oleander (Rosebay) as Affected by Different Nitrogen Sources and Salinity
  92. Plant nutrient-acquisition strategies change with soil age
  93. Shallow‐soil endemics: adaptive advantages and constraints of a specialized root‐system morphology
  94. Impact of phosphorus mineral source (Al–P or Fe–P) and pH on cluster-root formation and carboxylate exudation in Lupinus albus L.
  95. Water relations and mineral nutrition of Triodia grasses on desert dunes and interdunes
  96. Adaptations to winter-wet ironstone soils: a comparison between rare ironstone Hakea (Proteaceae) species and their common congeners
  97. Water relations and mineral nutrition of closely related woody plant species on desert dunes and interdunes
  98. Is there a critical level of shoot phosphorus concentration for cluster-root formation in Lupinus albus ?
  99. Rhizosphere processes do not explain variation in P acquisition from sparingly soluble forms among Lupinus albus accessions
  100. Banksia species (Proteaceae) from severely phosphorus‐impoverished soils exhibit extreme efficiency in the use and re‐mobilization of phosphorus
  101. Plant Growth Modelling and Applications: The Increasing Importance of Plant Architecture in Growth Models
  102. Marschner reviews: A new initiative in delivering cutting-edge science in soil–plant interactions
  103. Phosphorus nutrition of Australian Proteaceae and Cyperaceae: A strategy on old landscapes with prolonged oceanically buffered climates
  104. Does phenotypic plasticity in carboxylate exudation differ among rare and widespread Banksia species (Proteaceae)?
  105. Carboxylate composition of root exudates does not relate consistently to a crop species’ ability to use phosphorus from aluminium, iron or calcium phosphate sources
  106. Carboxylate release of wheat, canola and 11 grain legume species as affected by phosphorus status
  107. Specialized ‘dauciform’ roots of Cyperaceae are structurally distinct, but functionally analogous with ‘cluster’ roots
  108. Root Structure and Functioning for Efficient Acquisition of Phosphorus: Matching Morphological and Physiological Traits
  109. A model for simulating transpiration of Eucalyptus salmonophloia trees
  110. Increased ecological amplitude through heterosis following wide outcrossing in Banksia ilicifolia R.Br. (Proteaceae)
  111. Enhanced soil and leaf nutrient status of a Western Australian Banksia woodland community invaded by Ehrharta calycina and Pelargonium capitatum
  112. Functional significance of dauciform roots: exudation of carboxylates and acid phosphatase under phosphorus deficiency in Caustis blakei (Cyperaceae)
  113. Assimilation and allocation of carbon and nitrogen of thermal and nonthermal Agrostis species in response to high soil temperature
  114. Distribution of Carboxylates and Acid Phosphatase and Depletion of Different Phosphorus Fractions in the Rhizosphere of a Cereal and Three Grain Legumes
  115. Rhizosphere Carboxylate Concentrations of Chickpea are Affected by Soil Bulk Density
  116. Triticum aestivum shows a greater biomass response to a supply of aluminium phosphate than Lupinus albus, despite releasing fewer carboxylates into the rhizosphere
  117. Manganese accumulation in leaves of Hakea prostrata (Proteaceae) and the significance of cluster roots for micronutrient uptake as dependent on phosphorus supply
  118. Root Physiology – from Gene to Function
  119. The Roots of Carnivorous Plants
  120. Cluster Roots: A Curiosity in Context
  121. Physiological changes in white lupin associated with variation in root‐zone CO2 concentration and cluster‐root P mobilization
  122. Variation in relative growth rate of 20 Aegilops species (Poaceae) in the field: The importance of net assimilation rate or specific leaf area depends on the time scale
  123. Phosphorus benefits of different legume crops to subsequent wheat grown in different soils of Western Australia
  124. Response of mitochondria to light intensity in the leaves of sun and shade species
  125. Characterisation of arbuscular mycorrhizal fungi colonisation in cluster roots of shape Hakea verrucosa F. Muell (Proteaceae), and its effect on growth and nutrient acquisition in ultramafic soil
  126. The occurrence of dauciform roots amongst Western Australian reeds, rushes and sedges, and the impact of phosphorus supply on dauciform‐root development in Schoenus unispiculatus (Cyperaceae)
  127. Root Physiology: from Gene to Function
  128. The roots of carnivorous plants
  129. Cluster roots: A curiosity in context
  130. Preferential outcrossing in Banksia ilicifolia (Proteaceae)
  131. Plant phosphorus status has a limited influence on the concentration of phosphorus-mobilising carboxylates in the rhizosphere of chickpea
  132. Phosphorus uptake by grain legumes and subsequently grown wheat at different levels of residual phosphorus fertiliser
  133. A genetic analysis of relative growth rate and underlying components in Hordeum spontaneum
  134. Effects of applied gibberellic acid and paclobutrazol on leaf expansion and biomass allocation in two Aegilops species with contrasting leaf elongation rates
  135. A root trait accounting for the extreme phosphorus sensitivity of Hakea prostrata (Proteaceae)
  136. Carboxylate concentrations in the rhizosphere of lateral roots of chickpea (Cicer arietinum) increase during plant development, but are not correlated with phosphorus status of soil or plants
  137. Effect of respiratory homeostasis on plant growth in cultivars of wheat and rice
  138. Rhizosphere carboxylate concentrations of chickpea are affected by genotype and soil type
  139. Inherent Variation in Growth Rate Between Higher Plants: A Search for Physiological Causes and Ecological Consequences
  140. Introduction, Dryland Salinity: A Key Environmental Issue in Southern Australia
  141. Aerenchyma formation and radial O2 loss along adventitious roots of wheat with only the apical root portion exposed to O2 deficiency
  142. Growth responses to waterlogging and drainage of woody Hakea (Proteaceae) seedlings, originating from contrasting habitats in south-western Australia
  143. Are trade‐offs in allocation pattern and root morphology related to species abundance? A congeneric comparison between rare and common species in the south‐western Australian flora
  144. Shoot P status regulates cluster‐root growth and citrate exudation in Lupinus albus grown with a divided root system
  145. Introduction
  146. Interaction of nitrogen and phosphorus nutrition in determining growth
  147. Epidermal cell division and cell elongation in two Aegilops species with contrasting leaf elongation rates
  148. Interaction of nitrogen and phosphorus nutrition in determining growth
  149. Chickpea and white lupin rhizosphere carboxylates vary with soil properties and enhance phosphorus uptake
  150. Chickpea and white lupin rhizosphere carboxylates vary with soil properties and enhance phosphorus uptake
  151. Effects of external phosphorus supply on internal phosphorus concentration and the initiation, growth and exudation of cluster roots in Hakea prostrata R.Br.
  152. Effects of external phosphorus supply on internal phosphorus concentration and the initiation, growth and exudation of cluster roots in Hakea prostrata R.Br.
  153. Structure and Functioning of Cluster Roots and Plant Responses to Phosphate Deficiency
  154. The Alternative Oxidase: in vivo Regulation and Function
  155. Changes in the acquisition and partitioning of carbon and nitrogen in the gibberellin‐deficient mutants A70 and W335 of tomato (Solanum lycopersicum L.)
  156. Respiratory Patterns in Roots in Relation to Their Functioning
  157. Short‐term waterlogging has long‐term effects on the growth and physiology of wheat
  158. Allelopathic and autotoxic interactions in selected populations of Lolium�perenne grown in monoculture and mixed culture
  159. Interactive effects of nitrogen and irradiance on growth and partitioning of dry mass and nitrogen in young tomato plants
  160. Growth and dry‐mass partitioning in tomato as affected by phosphorus nutrition and light
  161. Exudation of carboxylates in Australian Proteaceae: chemical composition
  162. Growth rate and biomass partitioning of wildtype and low‐gibberellin tomato (Solanum lycopersicum) plants growing at a high and low nitrogen supply
  163. The influence of a reduced gibberellin biosynthesis and nitrogen supply on the morphology and anatomy of leaves and roots of tomato (Solanum lycopersicum)
  164. Regulation of growth by phosphorus supply in whole tomato plants
  165. Growth characteristics in Hordeum spontaneum populations from different habitats
  166. Lambers, H., F. S. Chapin III, and T. L. Pons 1998: plant physiological ecology. Springer‐verlag, berlin, heidelberg, new york, london, paris, tokyo, hong kong. 540 pp., 356 Fig.Hb. DM 98.00 (us$59.95). Isbn 0‐387‐98326‐0.
  167. Photosynthesis, biomass partitioning and peroxisomicine A1 production of Karwinskia species in response to nitrogen supply
  168. Does elevated atmospheric CO2 concentration inhibit mitochondrial respiration in green plants?
  169. Leaf waxes of slow-growing alpine and fast-growing lowland Poa species: inherent differences and responses to UV-B radiation
  170. Control of Leaf Growth and its Role in Determining Variation in Plant Growth Rate from an Ecological Perspective
  171. Relative growth rate and biomass allocation in 20 Aegilops (Poaceae) species
  172. Relative growth rate and biomass allocation in 20 Aegilops (Poaceae) species
  173. Why do fast‐ and slow‐growing grass species differ so little in their rate of root respiration, considering the large differences in rate of growth and ion uptake?
  174. Plant Physiological Ecology
  175. Phosphorus allocation and utilization in three grass species with contrasting response to N and P supply
  176. Effects of nitrogen supply on the anatomy and chemical composition of leaves of four grass species belonging to the genus Poa, as determined by image‐processing analysis and pyrolysis–mass spectrometry
  177. A comparison of the vegetative growth of male‐sterile and hermaphroditic lines of Plantago lanceolata in relation to N supply
  178. Growth and water‐use efficiency of 10 Triticum aestivum cultivars at different water availability in relation to allocation of biomass
  179. The Causes of Inherently Slow Growth in Alpine Plants: An Analysis Based on the Underlying Carbon Economies of Alpine and Lowland Poa Species
  180. The interactive effect of irradiance and source of nitrogen on growth and root respiration ofCalamagrostis epigejos
  181. Relative growth rate, biomass allocation pattern and water use efficiency of three wheat cultivars during early ontogeny as dependent on water availability
  182. Relative growth rate, biomass allocation pattern and water use efficiency of three wheat cultivars during early ontogeny as dependent on water availability
  183. Relative growth rate correlates negatively with pathogen resistance in radish: the role of plant chemistry
  184. The relationship between the relative growth rate and nitrogen economy of alpine and lowland Poa species
  185. Carbon and nitrogen economy of four Triticum aestivum cultivars differing in relative growth rate and water use efficiency
  186. Yield and water use of wheat (Triticum aestivum) in a Mediterranean environment: Cultivar differences and sowing density effects
  187. Effect of soil drying on growth, biomass allocation and leaf gas exchange of two annual grass species
  188. Response to phosphorus supply of tropical tree seedlings: a comparison between a pioneer species Tapirira obtusa and a climax species Lecythis corrugata
  189. The Association of Biomass Allocation With Growth and Water Use Efficiency of Two Triticum aestivum Cultivars
  190. Effects of global environmental change on carbon partitioning in vegetative plants of Triticum aestivum and closely related Aegilops species
  191. A critique of the use of inhibitors to estimate partitioning of electrons between mitochondrial respiratory pathways in plants
  192. A critique of the use of inhibitors to estimate partitioning of electrons between mitochondrial respiratory pathways in plants
  193. Reduction, assimilation and transport of N in normal and gibberellin-deficient tomato plants
  194. Association of water use efficiency and nitrogen use efficiency with photosynthetic characteristics of two wheat cultivars
  195. Carbon use in root respiration as affected by elevated atmospheric O2
  196. Salicylic acid enhances the activity of the alternative pathway of respiration in tobacco leaves and induces thermogenicity
  197. Growth and carbon economy of a fast-growing and a slow-growing grass species as dependent on nitrate supply
  198. Root and leaf attributes accounting for the performance of fast- and slow-growing grasses at different nutrient supply
  199. Reduction, assimilation and transport of N in normal and gibberellin‐deficient tomato plants
  200. Regulation of K+ and NO3- fluxes in roots of sunflower (Helianthus annuus) after changes in light intensity
  201. Regulation of K+ and NO3− fluxes in roots of sunflower (Helianthus annuus) after changes in light intensity
  202. The respiratory energy requirements involved in nocturnal carbohydrate export from starch-storing mature source leaves and their contribution to leaf dark respiration
  203. Respiratory energy requirements and rate of protein turnover in vivo determined by the use of an inhibitor of protein synthesis and a probe to assess its effect
  204. Respiratory energy requirements and rate of protein turnover in vivo determined by the use of an inhibitor of protein synthesis and a probe to assess its effect
  205. Growth rate, plant development and water relations of the ABA-deficient tomato mutant sitiens
  206. Growth rate, plant development and water relations of the ABA‐deficient tomato mutant sitiens
  207. The effect of handling on photosynthesis, transpiration, respiration, and nitrogen and carbohydrate content of populations of Lolium perenne
  208. The effect of handling on photosynthesis, transpiration, respiration, and nitrogen and carbohydrate content of populations of Lolium perenne
  209. Phenotypic plasticity in response to nitrate supply of an inherently fast-growing species from a fertile habitat and an inherently slow-growing species from an infertile habitat
  210. Effects of N-supply on the rates of photosynthesis and shoot and root respiration of inherently fast- and slow-growing monocotyledonous species
  211. Effects of N‐supply on the rates of photosynthesis and shoot and root respiration of inherently fast‐ and slow‐growing monocotyledonous species
  212. The effect of handling on the yield of two populations of Lolium perenne selected for differences in mature leaf respiration rate
  213. The effect of handling on the yield of two populations of Lolium perenne selected for differences in mature leaf respiration rate
  214. Contribution of physiological and morphological plant traits to a species' competitive ability at high and low nitrogen supply
  215. Erratum: Evidence for Optimal Partitioning of Biomass and Nitrogen at a Range of Nitrogen Availabilities for a Fast- and Slow-Growing Species
  216. Rising CO2, secondary plant metabolism, plant-herbivore interactions and litter decomposition
  217. Rising CO2, secondary plant metabolism, plant-herbivore interactions and litter decomposition
  218. Yield advantage of a ‘slow‐’over a‘fast‐’respiring population of Lolium perenne cv. S23 depends on plant density
  219. CO2 and biosphere
  220. Assimilation, respiration and allocation of carbon in Plantago major as affected by atmospheric CO2 levels
  221. Evidence for Optimal Partitioning of Biomass and Nitrogen at a Range of Nitrogen Availabilities for a Fast- and Slow-Growing Species
  222. Assimilation, respiration and allocation of carbon inPlantago major as affected by atmospheric CO2 levels
  223. Partitioning of nitrogen and biomass at a range of N-addition rates and their consequences for growth and gas exchange in two perennial grasses from inland dunes
  224. Partitioning of nitrogen and biomass at a range of N‐addition rates and their consequences for growth and gas exchange in two perennial grasses from inland dunes
  225. Respiratory pathways in germinating maize radicles correlated with desiccation tolerance and soluble sugars
  226. Respiratory pathways in germinating maize radicles correlated with desiccation tolerance and soluble sugars
  227. The effect of nitrate-nitrogen supply on bacteria and bacterial-feeding fauna in the rhizosphere of different grass species
  228. Inherent Variation in Growth Rate Between Higher Plants: A Search for Physiological Causes and Ecological Consequences
  229. Respiratory energy requirements of roots vary with the potential growth rate of a plant species
  230. Is Interspecific Variation in Relative Growth Rate Positively Correlated with Biomass Allocation to the Leaves?
  231. Respiratory energy requirements of roots vary with the potential growth rate of a plant species
  232. Evidence for a significant contribution by peroxidase-mediated O2 uptake to root respiration of Brachypodium pinnatum
  233. Carbon and Nitrogen Economy of 24 Wild Species Differing in Relative Growth Rate
  234. Analysis of specific leaf area and photosynthesis of two inbred lines of Plantago major differing in relative growth rate
  235. Root Respiration and Growth in Plantago major as Affected by Vesicular-Arbuscular Mycorrhizal Infection
  236. Cytokinin concentration in relation to mineral nutrition and benzyladenine treatment in Plantago major ssp. pleiosperma
  237. Variation in the rate of root respiration of two Carex species: A comparison of four related methods to determine the energy requirements for growth, maintenance and ion uptake
  238. A Physiological Analysis of Genetic Variation in Relative Growth Rate within Plantago major L.
  239. Modelling of Respiration: Effect of Variation in Respiration on Plant Growth in Two Carex Species
  240. Effects of vesicular‐arbuscular mycorrhizal infection and phosphate on Plantago major ssp. pleiosperma in relation to the internal phosphate concentration
  241. Modelling of the responses to nitrogen availability of two Plantago species grown at a range of exponential nutrient addition rates
  242. Variation in the rate of root respiration of twoCarex species: A comparison of four related methods to determine the energy requirements for growth, maintenance and ion uptake
  243. The effect of an elevated atmospheric CO2 concentration on growth, photosynthesis and respiration of Plantago major
  244. Measurement of the activity and capacity of the alternative pathway in intact plant tissues: Identification of problems and possible solutions
  245. Respiratory energy costs for the maintenance of biomass, for growth and for ion uptake in roots of Carex diandra and Carex acutiformis
  246. Metabolism and translocation of nitrogen in two Lolium perenne populations with contrasting rates of mature leaf respiration and yield
  247. Respiration in Intact Tissues: Problems and Perspectives
  248. A physiological analysis of genotypic variation in relative growth rate: Can growth rate confer ecological advantage?
  249. Growth comparisons of a supernodulating soybean (Glycine max) mutant and its wild‐type parent
  250. Hydroxamate-Stimulated O2 Uptake in Roots of Pisum sativum and Zea mays, Mediated by a Peroxidase : Its Consequences for Respiration Measurements
  251. Growth and competitive ability of a highly plastic and a marginally plastic genotype of Plantago major in a fluctuating environment
  252. Photosynthesis and Respiration of Two Inbred Lines of Plantago Major L. Differing in Relative Growth Rate
  253. The influence of CO2 enrichment of the atmosphere and NaCl on growth and metabolism of Urtica dioica L.
  254. Fundamental, Ecological and Agricultural Aspects of Nitrogen Metabolism in Higher Plants
  255. Respiration in mature leaves of Lolium perenne as affected by nutrient supply, cutting and competition
  256. Regulation of Respiration in the Leaves and Roots of Two Lolium perenne Populations with Contrasting Mature Leaf Respiration Rates and Crop Yields
  257. Respiration of crop species under CO2 enrichment
  258. Respiratory Metabolism in Wheat
  259. Respiration in Intact Plants and Tissues: Its Regulation and Dependence on Environmental Factors, Metabolism and Invaded Organisms
  260. Energy Metabolism in Nodulated Roots
  261. The regulation of respiration in the dark in wheat leaf slices
  262. Growth and the efficiency of root respiration of Pisum sativum as dependent on the source of nitrogen
  263. Respiration for growth, maintenance and ion uptake. An evaluation of concepts, methods, values and their significance
  264. Effect of Photosynthesis and Carbohydrate Status on Respiratory Rates and the Involvement of the Alternative Pathway in Leaf Respiration
  265. The regulation of glycolysis and electron transport in roots
  266. Cyanide‐resistant respiration in roots and leaves. Measurements with intact tissues and isolated mitochondria
  267. Respiratory Properties of Developing Bean and Pea Leaves
  268. Nitrogen Redistribution during Grain Growth in Wheat (Triticum aestivum L.) : IV. Development of a Quantitative Model of the Translocation of Nitrogen to the Grain
  269. Growth and translocation of C and N in wheat (Triticum aestivum) grown with a split root system
  270. Kinetin application to roots and its effect on uptake, translocation and distribution of nitrogen in wheat (Triticum aestivum) grown with a split root system
  271. Translocation of nitrogen in a vegetative wheat plant (Triticum aestivum)
  272. Translocation and utilization of carbon in wheat (Triticum aestivum)
  273. Cyanide‐resistant respiration: A non‐phosphorylating electron transport pathway acting as an energy overflow
  274. Kinetics of nitrate uptake by different species from nutrient‐rich and nutrient‐poor habitats as affected by the nutrient supply
  275. Nitrogen metabolism of Plantago major ssp. major as dependent on the supply of mineral nutrients
  276. Growth, photosynthesis and respiration in Plantago coronopus as affected by salinity
  277. Energy metabolism of Plantago major ssp. major as dependent on the supply of mineral nutrients
  278. The efficiency of root respiration in different environments
  279. Interactions between osmoregulation and the alternative respiratory pathway in Plantago coronopus as affected by salinity
  280. Nitrogen metabolism of Plantago lanceolata as dependent on the supply of mineral nutrients
  281. Energy metabolism of Plantago lanceolata as dependent on the supply of mineral nutrients
  282. The Effect of Light Intensity and Relative Humidity on Growth Rate and Root Respiration of Plantago lanceolata and Zea mays
  283. Efficiency and regulation of root respiration in a legume: Effects of the N source
  284. The physiological significance of cyanide‐resistant respiration in higher plants
  285. Efficiency of Root Respiration in Relation to Growth Rate, Morphology and Soil Composition
  286. Respiration of Senecio Shoots: Inhibition during Photosynthesis, Resistance to Cyanide and Relation to Growth and Maintenance
  287. Cyanide‐Resistant Root Respiration and Tap Root Formation in Two Subspecies of Hypochaeris radicata
  288. Growth Respiration of a Flood‐Tolerant and a Flood‐Intolerant Senecio Species: Correlation between Calculated and Experimental Values
  289. The Significance of Oxygen Transport and of Metabolic Adaptation in Flood‐Tolerance of Senecio Species
  290. Respiration of the Roots of Flood‐Tolerant and Flood‐Intolerant Senecio Species: Affinity for Oxygen and Resistance to Cyanide
  291. Efficiency of Root Respiration of a Flood‐Tolerant and a Flood‐Intolerant Senecio Species as Affected by Low Oxygen Tension
  292. Respiration and NADH‐Oxidation of the Roots of Flood‐Tolerant and Flood‐Intolerant Senecio Species as Affected by Anaerobiosis
  293. Regulation of Respiration In Vivo
  294. Role of Root Clusters in Phosphorus Acquisition and Increasing Biological Diversity in Agriculture