The Influence of the Arrangement of Neighbours on the Spatial Component of Resource Capture by an Individual Plant in Even-aged Monocultures

Data from experiments using extensive row-spacing treatments(Benjamin and Sutherland, 1992) were analysed to indicate thatmorphological responses to micro-spatial heterogeneity in resourcelevel are important in determining the growth response of field-growncarrot plants to the spatial distribution of neighbours. Thisinformation is important for the simulation of the growth ofindividual plants in response to the presence of neighbours.Copyright1993, 1999 Academic Press Crop yield, plant weight, plant density, plant spacing, plant arrangement, row crop, carrot, Daucus carota L., mathematical model, neighbourhood     

Effects on the growth of carrots (Daucus carota L.), cabbage (Brassica oleracea var. capitata L.) and onion (Allium cepa L.) of restricting the ability of the plants to intercept resources

The objective of this paper is to assess the size and penetration of edge effects in carrot, cabbage and onion field crops and the extent to which these edge effects are modified by the presence of aerial or soil competition between the crop rows. In all three crops, large weight differences developed between the plants in the edge rows and those in the central rows. There was no indication of plant weight fluctuating between large and small values with each successive row in from the edge, as suggested by others. In carrot and onion, edge effects were greatly reduced by the presence of either white reflective aerial partitions or soil partitions, indicating that these species competed for both light and soil resources in UK field conditions. In cabbage, the mere presence of clear aerial partitions between rows reduced edge effects and there was little effect of soil partitions. This indicates the predominance of shoot over root competition in this species. The differences between species are possibly related to the architectural flexibility of their shoots. These results suggest that, within crops, carrot and onion plants compete for light over a distance of about 20 cm in each direction and for below-ground resources over a distance of about 50 cm in each direction. For cabbage, interactions between plants appeared to be dominated by the requirement for sufficient space to deploy the shoots for efficient light interception.     

The Effect of Photon Flux Density and Duration of the Photosynthetic Period on Growth and Dry Matter Distribution in Carrot

The distribution of dry matter between shoot and storage rootof carrot plants grown in light regimes varying in intensity,duration and integral, is used to test an hypothesis for thecontrol of assimilate partition Results from seven varietiesshow that shoot to storage root weight ratios are affected bythe light environment, but that these effects are associatedwith the effect of light on plant size It is concluded thatquantitative alterations to the supply of assimilate, resultingfrom variation in the light regime, do not affect its partitionto different organs This is discussed in relation to other investigationswhich have suggested a relationship between the duration ofthe photosynthetic period, assimilate sequestration in foliarstarch and partition between shoot and root Daucus carota L, carrot, assimilate partition, light intensity, daylength, shoot, storage root, shoot-root ratio, source-sink relations     

Vegetable Plant Part Relationships. I. Effects of Time and Population Density on the Shoot and Storage Root Weights of Carrot (Daucus carota L.)

Chantenay carrot plants were grown in replicated plots containingdensities of 25, 64, 130 and 245 plants m^–2 and harvestedon 20 weekly occasions giving a total of 360 pairs of d. wtsand 13908 pairs of f. wts of shoots (s) and roots (r). The relationshipbetween the logarithms of s and r was curved for plants sampledon successive occasions from the same density but it was linearfor plants sampled on a single occasion, both within and betweendensities. A good overall relationship was In s = a+0.805 In r, where the intercept (a) ranged in approximately equal stepsfrom +1.2 to –1.1 at the first and last harvests respectively.Except for some systematic deviation from this equation at earlyharvests, the above relationship fitted the data well irrespectiveof the wide range of density and whole plant weight. Daucus carota L. carrot, root/shoot weight, population density, growth analysis     

Vegetable Plant Part Relationships. III. Modification of Carrot (Daucus carota L.) Root and Shoot Weights by Gibberellic Acid and Daminozide

Aqueous foliar sprays of N-dimethylaminosuccinamic acid (daminozide)at 2000 p.p.m. and gibberellic acid (GA) at 100 p.p.m. wereapplied 45, 59, 82 and 100 days after sowing to Chantenay carrotswith population densities of 244, 495 and 883 plants m^–2.The plants were harvested on ten approximately weekly occasions;fresh weights were determined and d. wt estimates were obtainedfor the separated shoots (s) and roots (r). Allometric linearregressions of the logarithm of s on that of r at each harvestseparately, clearly showed that GA always increased shoot: rootratio and reduced root yield (by approximately 35 per cent)but could sometimes also increase whole-plant weight. Daminozideincreased root yield (by approximately 7 per cent from 80 tonnesha^–1) and tended to have effects opposite to those ofGA. Daucus carota L., carrot, root weight, shoot weight, N-dimethylaminosuccinamic acid (daminozide), gibberellic acid     

Vegetable Plant Part Relationships. IV. An Interpretation of Growth Regulator Experiments with Root Crops

A quantitative scheme to describe the growth of plant partsduring the vegetative phase of development is extended to includethe concept of hormone directed transport. The expected effecton shoot/storage root d. wt relationships of a single àxternalapplication of a growth regulating chemical is investigatedusing this approach. The theory predicts that the resultingchange in the pattern of assimilate partitioning will modifythe underlying relationship between shoot and storage root weightsin a simple measurable fashion. The theory is inevitably oversimplifiedand speculative in parts but when a derived equation was fittedto data from an experiment in which gibberellic acid and daminozidewere applied to carrots, close agreement was found between thepredictions and experimental data. Daucus carota, carrot, shoot weight, root weight, gibberellic acid, N-dimethylamino-succinamic acid (daminozide), growth analysis     

断根对冬小麦竞争能力与产量的影响

 采用简化的deWit替代系列法研究了盆栽冬小麦‘长武135’（Triticum aestivum cv. Changwu 135）在拔节初期断根对冬小麦根冠关系、竞争能力及其与产量性状的关系。无论干旱或湿润，单栽条件下断根降低了小麦的根冠比，在混栽条件下，断根小麦的相对穗重和相对地上部生物量均显著低于未断根小麦，说明断根降低了小麦的竞争能力。根冠比越大竞争能力越强，即作物的竞争能力与根冠比存在正相关关系。单栽湿润条件,断根降低了小麦的穗重和籽粒产量，而在中等干旱条件下，断根小麦穗重和籽粒产量高于未断根小麦 。说明在水资源充分的条件下，较高的作物个体竞争能力则具有较高的生产能力，而在水资源有限的情况下，降低作物个体竞争能力反而提高了群体籽粒产量。     

Growth Consequences of Soil Nutrient Heterogeneity for two Old-field Herbs,Ambrosia artemisiifoliaandPhytolacca americana, Grown Individually and in Combination

Plant species can respond to small scale soil nutrient heterogeneityby proliferating roots or increasing nutrient uptake kineticsin nutrient-rich patches. Because root response to heterogeneitydiffers among species, it has been suggested that the distributionof soil resources could influence the outcome of interspecificcompetition. However, studies testing how plants respond toheterogeneity in the presence of neighbours are lacking. Inthis study, individuals of two species,Phytolacca americanaL.andAmbrosia artemisiifoliaL. were grown individually and incombination in soils with either a homogeneous or heterogeneousnutrient distribution. Above-ground biomass of individuallygrown plants of both species was greater when fertilizer waslocated in a single patch than when the same amount of fertilizerwas distributed evenly throughout the soil. Additionally, bothspecies proliferated roots in high-nutrient patches.A. artemisiifoliaexhibitedlarger root:shoot ratios, increased nitrogen depletion fromnutrient patches, and a higher growth rate thanP. americana,suggestingA. artemisiifoliais better suited to find and rapidlyexploit nutrient patches. In contrast to individually grownplants, soil nutrient distribution had no effect on final above-groundplant biomass for either species when grown with neighbours,even though roots were still concentrated in high nutrient patches.This study demonstrates that increased growth of isolated plantsas a consequence of localized soil nutrients is not necessarilyan indication that heterogeneity will affect interspecific encounters.In fact, despite a significant below-ground response, soil nutrientheterogeneity was inconsequential to above-ground performancewhen plants were grown with neighbours.Copyright 1999 Annalsof Botany Company Phytolacca americana, pokeweed,Ambrosia artemisiifolia, ragweed, nutrient heterogeneity, root proliferation, plasticity, foraging, nutrient patches.     

The Rate of Growth and Partitioning of Assimilates in Young Grass Plants: A Mathematical Model

A model describing the increase in weight with time of younggrass plants is formulated. The parameters are the relativegrowth rates of the root and shoot systems; k, the ratio ofthe relative growth rate of the root system relative to thatof the shoot system; b, the weight of the root system when thatof the shoot system is unity, and u the rate of increase inweight of the whole plant per unit of shoot system per unitof time, k and b are the constants in the allometric formula,r = bs^k where r and are the weights of the root and shoot systems.The model enables the effect of changes in the distributionof assimilates between the root and shoot systems upon the rateof growth of the plant to be assessed. Data from a number ofexperiments are analysed in this manner and the significanceof the results discussed.     

Carbon Economy of Carrots During Initiation of the Storage Root in Cultivars Contrasting in Shoot: Root Ratio at Maturity

Photosynthesis, respiration and growth of two cultivars of carrotwith contrasting ratios of shoot: storage root weight at maturity,were compared during initiation of the storage root at 20 °C.Partition of assimilate between shoot, roots and respirationshowed no varietal differences but distribution between storageand fibrous roots was different from the time that the storageroot could be morphologically identified. For both cultivarsover the period investigated, approximately 64% of net photosynthesiswas partitioned to the shoot with 5% lost as respiration duringthe dark and 59% used in growth. Of that exported to the rootsystem (36%), 19% (of net photosynthesis) was used in growthand 17% was lost in respiration. In the cultivar with greatershoot: storage root ratio at maturity, 4.6% was allocated tothe storage root in contrast to 7.5% in the cultivar with alesser shoot: storage ratio at maturity. It is concluded thatgreater dry matter accumulation in the storage root of the lattercultivar does not result from transient differences in respiratoryloss and is not evident in shoot to total root dry matter distributionover this period. Daucus carota L, carrot, assimilate partition, shoot, storage root, shoot: root ratio     

Stand Density Effects on Branching in an Annual Legume (Senna obtusifolia)

Effects of proximity to nearest neighbours on shoot morphologyand branch growth were examined for Senna obtusifolia (L.) I.& B., an annual legume species that displays wide variationin branching. Periodic surveys described location and type ofgrowth at all nodes on plants in regularly spaced monocultures.Stands with interplant distances of 15-50 cm (51-5 plants m^-2)formed closed canopies with similar amounts of leaf area andbiomass. Number of lower primary branches, their degree of curvature,and location of branch apices relative to the main stem respondedto interplant distance relatively early in shoot growth, beforecanopy closure. The final effects of ten-fold differences inplanting density on the formation of these ascending lower brancheswere only two-fold differences in number of vertical shoot axeswithin the stand. An additional study examined response of lowerbranches to an adjacent gap in the stand. Initial number anddirection of branch growth were not affected by location ofthe gap. The first effect of crowding by neighbours was on number ofbranches initiated by developing shoots. Differences in branchingsubsequently increased through differentiaI survival and directionof branch growth. Such alterations principally affected lateralexpansion of individual shoots, with little effect on radialsymmetry or vertical distribution of leaves.Copyright 1994,1999 Academic Press Branch morphology, canopy, competition, light quality, Senna obtusifolia, shoot growth, sicklepod     

The porous-membrane technique for root studies of field-grown crops

A porous-membrane technique has been successfully used in root studies of field-grown soybean,Glycine max L. Merr., for several years. In order to evaluate this technique on other crops, a study was conducted to compare growth parameters of individual soybean, cotton,Gossypium hirsutum L., and corn,Zea mays L., plants grown with and without their root systems confined within porous membranes. Results indicate that plant species respond differently to root confinement.Root confinement reduced all shoot growth and yield parameters of the crop species, however the reduction was generally greatest for cotton. Apparently, cotton is less adaptable to the restricted rooting volume. Root confinement reduced levels of potassium and phosphorus in soybean and nitrogen in corn and cotton. Fertilizer rates higher than soil test recommendations should be applied to membrane-grown plants to prevent reductions in nutrient levels. It may be possible that modifying the size or shape of the membrane may enhance root and shoot growth of specific crop plants like cotton and increase the ability of this technique to be used on a broader spectrum of crop plants.     

Morphological markers for the detection of introgression from cultivated into wild carrot (Daucus carota L.) reveal dominant domestication traits

Hybridisation and subsequent introgression have recently received much attention in the context of genetically modified crops. But crop–wild hybrid detection in the field can be difficult, as most domestication traits seem to be recessive, and the hybrid phenotype may also depend on the direction of the cross or environmental factors. Our aim was to develop a reliable set of morphological markers that differ between two wild and 13 cultivated carrots (Daucus carota L.) and to evaluate their inheritance in hybrid lines. We then examined these morphological markers in four F1 hybrids obtained by fertilising plants from the two wild accessions with pollen from two common carrot cultivars. Of the 16 traits that differed between the two carrot subspecies, three took intermediate values in the hybrids, eight resembled the cultivar parent (dominant domestication traits), two resembled the wild parent (domestication traits recessive), and three were not significant or growth condition‐dependent. Root:shoot ratio was seven times higher for cultivars than for wild plants, while still attaining equivalent total dry weight, which shows that dry matter production by the shoot is much higher in cultivars than in wild plants. High root:shoot ratios were also present in the hybrids. While we found no maternal effects, the type of cultivar used for pollination had an impact on hybrid characteristics. The morphological markers developed here provide insights into the mode of inheritance of ecologically relevant traits and can be useful for pre‐screening wild populations for hybrid detection prior to genetic analysis.     

Predicting Growth in Stands of Mixed Species from that in Individual Species

The growth of spring cabbage (Brassica oleracea var. capitataL.) and carrot (Daucus carota L.) in mixed species stands iscompared with growth curves predicted by two forms of a dynamiccompetition model, which uses a conductance relationship (Aikmanand Scaife, 1993) to allow for the constraints on growth froma set of environmental variables. While a plant is isolated,light interception is assumed to occur within a zone whose areais a function of plant weight. Lateral foliage expansion isconstricted when the available space is filled. One form ofthe model assumes that all plants are of similar height (Aikmanand Benjamin, 1994). The second form assumes the crown zonesare in separate vertical layers, allowing greater lateral expansionin each layer but imposing shading on the underlayer. Parameter values of the model were estimated from the growthwithin even-aged monocrops. The first form of the model gavethe best prediction of growth in the intercrops, often producinga close agreement between observed and predicted weights. Onlyat the highest density used, 0·05 m spacing, did thedifferent height form of model give a better prediction of growth. Many mixed species stands may be approximated by one or otherof the forms of the model, and the relevant form can easilybe calibrated from the growth observed in monocrops. Hence,simple models may be sufficiently accurate to predict growthin mixed species systems such as intercrops, or crops and weeds.Copyright1995, 1999 Academic Press Cabbage, carrot, competition, intercrop, light, mechanistic model, temperature, canopy architecture     

Dry Matter Distribution between Shoot and Storage Root of Carrot, Parsnip, Radish and Red Beet

The relationship between shoot and storage root weights of carrot,parsnip, radish and red beet was examined using plants of differentsize and age. For both carrot and parsnip plants of the sameage there was a linear relationship between the logarithms ofshoot and storage root d. wts which was unaffected by plantdensity. For parsnip the parameters of the regression were unchangedby harvest time, while for carrot the slope of the regressionremained constant and the intercept progressively declined withharvest time. These observations are consistent with an hypothesisof assimilate partition based on competition between sinks.For both radish and red beet at very high densities the logarithmicrelationship between shoot and storage root weight was curvilinearwith significant effects of both harvest time and density. Itis suggested that interplant competition may affect the initiationof storage tissue development in both these species. It is concludedthat for radish and red beet, even when considering only plantsproducing normal swollen storage roots, partition of assimilateis affected by factors not incorporated into the above hypothesis. Root crop, carrot, parsnip, radish, red beet, partition of assimilated carbon, model     

The Effects of Infection by Rust (Puccinia lagenophorae Cooke) on the Growth of Groundsel (Senecio vulgaris L.) Cultivated under a Range of Nutrient Concentrations

Groundsel (Senecio vulgaris L.), healthy or infected with therust fungus Puccinia lagenophorae Cooke, was grown at a rangeof nutrient concentrations in sand culture. There were statisticallysignificant interactions between the effects of infection andnutrient supply upon the dry weights of stems, leaves, rootsand reproductive tissues, leaf area and cumulative capitulumproduction. This interaction occurred since infection causedsignificant inhibitions of growth only at moderate or high nutrientconcentrations. At low concentrations rusted plants were similarto or slightly larger than controls. Both in controls and rustedplants root: shoot ratios increased as nutrient supply declined.The ratio of root: shoot dry weight was consistently reducedby infection whilst root length: leaf area ratio was relativelyunchanged. More detailed investigations confirmed that infection had littleeffect on plant growth under nutrient deficient conditions despitesuppression of the host's ability to increase root: shoot ratiosin response to nutrient stress. This reflected the inhibitionof relative growth rates in rusted plants at high but not lownutrient concentrations, which in turn reflected reduced netassimilation rates (NAR). Increases in leaf-area ratio (LAR)often ameliorated the decline in NAR in rusted plants. Senecio vulgaris L., Puccinia lagenophorae Cooke, nutrient deficiency, growth, root: shoot ratio     

Potential Yield in Carrots (Daucus carota L.): Theory, Test, and an Application

There is little published information on the physiological behaviourof carrots at the crop level. Here we derive and test a simplemodel for the potential yield of carrot crops. The model calculatesgreen leaf area index (L) using a daily time step. Dry matterproduction is related linearly to light interception, calculatedfromL and canopy light extinction coefficient (k). Two stagesof growth are distinguished. In stage 1, leaf expansion on eachplant is unaffected by neighbouring plants. Stage 2 commenceswhen L reaches a critical value and the plants start to interact.Compared to stage 1, stage 2 has slower leaf expansion and ak which varies with plant density. Dry matter partitioning betweenshoots and the storage root depends on L. We calibrated themodel for two processing cultivars, ‘Chantenay Red Core’and ‘Red Hot’, using data from a 1997–98 plantdensity experiment in Hawke's Bay, New Zealand. The model accountedfor 72% of the observed variation in root size and 79% of thevariation in yield. We tested the model against results fromtwo experiments in 1995–96 and 1996–97. In bothexperiments the same two cultivars were sown at three differentsowing times. Overall, the model accounted for 72% of the observedvariation in root size and 66% of the variation in yield, showingthat it is portable to other environments. Finally, we appliedthe model to interpret the effects of sowing date in these twoexperiments. Previous attempts were confounded by variationin plants m^-2with sowing date. The model allowed us to separatethe effects of these factors, and indicated that early sowingsubstantially benefited yield. Copyright 2000 Annals of BotanyCompany Carrot, Daucus carota L., day-degrees, genetic algorithm, growth modelling, plant density, potential yield, thermal time     

Changes in the Growth of Roots and Shoots when Perilla frutescens L. Britt. is Induced to Flower

The pattern of root and shoot growth of Perilla frutescens L.Britt. was studied in plants growing either in norally inductivephotoperiods or in non-inductive photoperiods. By the 20th dayof inductive treatment, that is at least 5 d before the firstflowers were pollinated, the rate of dry matter accumulationin the roots was slower in induced than in non-induced plants.The roots of induced plants had both a smaller fresh weightand dry weight per unit length. The rate of root elongationalso became slower in induced plants than in non-induced plants.The frequency of branching was greater in roots of induced plants.Plants exposed to inductive photoperiods showed precocious developmentof axillary buds on the shoot, and a reduction in the rate ofstem elongation. It is suggested that these changes in the shootreflect a decrease in the auxin status of the shoot, which mayin turn be responsible for the decreased rate of root growthin the induced plants.     

The Effect of Number of Shoots on the Quantity and Distribution of Increment in Young Apple-trees: With three Figures in the Text

It is shown that the shoots of a young tree act additively ratherthan competitively, that is, each extra shoot produces a definiteextra increment in total weight, not that a constant incrementis divided among the shoots of the young tree. One-year apple-trees of 3 varieties were rigorously selectedfor size and weight, and in the spring disbudded to 1, 2, 3,or n, the natural number of shoots per plant. The treatmentswere applied in the 1st or 2nd year after planting and the incrementduring the treatment year was determined. Provided not morethan a few secondary shoots were produced on the current shoots,each additional primary shoot produced an increase in weight.In one variety plants with 1 primary shoot produced many secondariesand these plants were heavier than those with 2 primaries. The largest shoot was not greatly affected in size by the presenceof other shoots except in the variety which produced secondaryshoots readily. These were most abundant on plants with 1 primaryshoot, fewer on plants with 2, and almost negligible on plantswith 3 and n shoots. Treatment and varietal effects on the percentage distributionof increment as leaves, new stem, old-stem increment, and root,were small. The percentage of leaves in the 2nd year was abouthalf what it was in the 1st year; the percentage of root wasnearly the same in both years.     

Analysis of Dry Matter Partitioning in Dactylis glomerata during Vegetative Growth Using a Carbon Budget Model

The dry matter partitioning in vegetative plants of Dactylisglomerata was studied from experiments performed in controlledenvironments. Plants were grown hydroponically in growth chambers,at two constant temperatures (17 and 25 °C). In both experimentsthe root fraction decreased regularly with time, an effect thatwas more accentuated in the higher temperature regime. In orderto explain the change in dry matter partitioning, the experimentalshoot and root growth were analysed using a carbon budget modelwhich includes shoot and root maintenance requirements. Themodel predicts a relationship between the root specific growthrate and the product of shoot specific growth rate and shootto root dry weight ratio. In the range of experimental accuracy,this relationship was found to be linear at both temperatures,which should indicate that the partitioning coefficients andthe root maintenance coefficient remained constant during vegetativegrowth. The effect of temperature on the value of these coefficientscan be specified from a linear regression analysis. Between17 and 25 °C, the root maintenance coefficient increasedby about a factor of two, whereas the partitioning coefficientsdid not vary significantly. On the basis of these results, itwas shown that the decrease in root fraction during vegetativegrowth should be mainly attributed to the decrease in net specificactivity of shoots.Copyright 1994, 1999 Academic Press Dactylis glomerata L., vegetative growth, model, partitioning, root:shoot ratio, shoot specific activity, maintenance requirements