Cardiac Output and Its Interorgan Distribution in Mammals at Rest

A review is presented on published equations connecting the cardiac output per minute (COM) with the body weight (BW) in mammals with different BW under the conditions of the relative motor rest. The entire series of these animals with the BW from several grams to many tons is well described by the equation -BW^0.75, in which the coefficient changes parabolically by increasing to the smallest and largest animals. According to it, the BW increase from 20 g to 70 kg is accompanied by an 8-fold decrease of the specific COM from 72 to 9 ml/min × 100 g. As judged from publications, this COM decrease is accompanied by changes of its interorgan distribution. The volume rate of the blood flow (per 100 g of the organ) is preserved in kidney, decreases approximately 3 times in heart and organs of v. hepatica, remaining higher in heart, and decreases markedly in skin (14 times), in skeleton (18 times), and skeletal muscles (21 times). The mechanisms of such changes of the organ blood flow are different changes of the organ parts of COM and relative body weights of the organs.     

Variation of glucosinolate accumulation among different organs and developmental stages of Arabidopsis thaliana

The glucosinolate content of various organs of the model plant Arabidopsis thaliana (L.) Heynh., Columbia (Col-0) ecotype, was analyzed at different stages during its life cycle. Significant differences were noted among organs in both glucosinolate concentration and composition. Dormant and germinating seeds had the highest concentration (2.5-3.3% by dry weight), followed by inflorescences, siliques (fruits), leaves and roots. While aliphatic glucosinolates predominated in most organs, indole glucosinolates made up nearly half of the total composition in roots and late-stage rosette leaves. Seeds had a very distinctive glucosinolate composition. They possessed much higher concentrations of several types of aliphatic glucosinolates than other organs, including methylthioalkyl and, hydroxyalkyl glucosinolates and compounds with benzoate esters than other organs. From a developmental perspective, older leaves had lower glucosinolate concentrations than younger leaves, but this was not due to decreasing concentrations in individual leaves with age (glucosinolate concentration was stable during leaf expansion). Rather, leaves initiated earlier in development simply had much lower rates of glucosinolate accumulation per dry weight gain throughout their lifetimes. During seed germination and leaf senescence, there were significant declines in glucosinolate concentration. The physiological and ecological significance of these findings is briefly discussed.     

不同遮光处理对川西柳叶菜部分形态、生长和生理指标的影响

以自然光照为对照,对轻度、中度和重度遮光条件下(遮光率分别为24%、48%和72%)川西柳叶菜( Epilobium fangii C. J. Chen et al.)的部分形态、生长和生理指标进行比较分析。分析结果显示：遮光处理对川西柳叶菜的MDA含量无显著影响,对叶长、花冠宽、叶干质量分配比例以及叶绿素a( Chla)、叶绿素b( Chlb)和类胡萝卜素(Car)含量及Chla/Chlb值有显著影响(P<0.05),对其余指标有极显著影响(P<0.01)。与对照相比,3个遮光处理组的单株根数、株高、主茎长和基径总体上显著下降,根长在轻度和中度遮光条件下略升高、在重度遮光条件下显著升高;3个遮光处理组的单株叶片数和叶长总体上显著下降,叶宽在轻度和中度遮光条件下略下降、在重度遮光条件下显著升高,叶厚在轻度遮光条件下显著升高、在中度遮光条件下略下降、在重度遮光条件下显著下降;3个遮光处理组的花柄长、花管长和花冠高显著升高,单株开花数在轻度遮光条件下略下降、在中度遮光条件下显著升高、在重度遮光条件下显著下降,花冠宽在轻度和中度遮光条件下略升高、在重度遮光条件下显著升高。与对照相比,3个遮光处理组的全株干质量和茎干质量分配比例均显著下降;根干质量分配比例和根冠比在轻度遮光条件下显著升高、在中度和重度遮光条件下略下降;地上部干质量分配比例在轻度遮光条件下显著下降、在中度和重度遮光条件下略升高;叶干质量分配比例在轻度和中度遮光条件下略下降、在重度遮光条件下略升高。在轻度和中度遮光条件下,叶片的Chla、Chlb和Car含量基本上显著高于对照,Chla/Chlb值分别略低于或显著低于对照;而在重度遮光条件下这4个指标均略高于对照。与对照相比,轻度和中度遮光条件下叶片的H2 O2含量和SOD活性略升高,MDA含量和总抗氧化能力略下降;总酚含量在轻度遮光条件下略下降、在中度遮光条件下略升高;重度遮光条件下这5个指标均显著升高。随着遮光程度的增强,川西柳叶菜的单株根数、株高、主茎长、基径和叶厚逐渐下降,而叶宽、全株干质量、叶干质量分配比例、H2 O2含量、SOD活性和总酚含量逐渐升高;其中,在中度遮光条件下,其单株开花数、花柄长、花管长、花冠高、花冠宽和花干质量分配比例最高。结果表明：在遮光条件下,川西柳叶菜可在形态、生长和生理上调整生长策略,完成发育过程;并且,中度遮光有利于其生殖分配,提高其观赏价值。     

Trockengewicht und Kaloriengehalt sich entwickelnder Heringseier

Dry weight and caloric content of eggs from spring spawning western Baltic Sea herrings have been determined employing the bomb calorimetry technique. Water temperature throughout incubation was kept at 8.0°±0.2° C. Average dry weight and caloric content values of one pist fertilized egg are 0.170 mg (0.124 mg without chorion) and 0.748 cal (without chorion), respectively. The caloric content per egg decreases progressively during the incubation period (Fig. 2). The same holds for the dry substance of the egg (Fig. 1). Energy extraction efficiency related to dry weight is 67.8%, the efficiency related to dry organic substance 70.4%, and the caloric efficiency 63.7%.     

Assessment of scots pine (Pinus sylvestris L.) respiration at culmination stage of its current growth in forest-steppe zone of Pre-Baikal area

Respiration and growth of vegetative organs of the Scotch pine model trees have been studied at the culmination stage of its current growth in forest-steppe zone of Pre-Baikal area during vegetation periods in 1976–2005. The presence of a close relationship between vegetative organ respiration and the temperature and processes of their growth is the basis of the assessment of respiration, a calculation of the intensity of which is performed per the surface and absolute dry mass (a.d.m.) of these organs. Regardless of the basis for calculating the respiration rate in the studied organs, its value decreases from apical meristems towards the base of organs. The ratio between the total respiration of over- and underground pine organs during its calculation per the surface and a.d.m. was 3: 2 and almost 2: 1, respectively. The pine respiration increased approximately two times from the beginning to the end of the observation period (regardless of the base of calculation its intensity), while its average value calculated per the surface and a.d.m. during this period was 32.8 and 36.9 kg CO₂, respectively.     

Ontogenetic changes in photosynthetic capacity and dry matter production of flag wheat leaves during the grain filling period

The relationships between photosynthetic capacity and dry matter accumulation during the grain filling period have been studied in flag leaves of Triticum aestivum L., cv. Kolibri grown in Mediterranean field conditions. Particular importance has been given to assimilate accumulation in relation to the onset of senescence. During grain filling, the time course of specific dry weight (SDW) was similar in the blade and in the sheath. Variations in SDW were about six times larger in the sheath than in the blade. Minimum blade SDW values occurred during heading and at anthesis. Maximum blade SDW values were observed two weeks after anthesis. After this, SDW values decreased sharply. The dry matter increase per grain in the period from two weeks after anthesis to the end, was only about 25% of final grain dry weight. The importance of environmental constraints on maximum SDW values are discussed. Maximum SDW values occurred at the beginning of the period of rapid decline in blade net CO₂ assimilation rate and leaf nitrogen content, that is, at the beginning of senescence. On the other hand, the stomatal resistance to CO₂ and the development of senescence are not apparently related. The maximum blade dry weight increase (considering a value of zero at heading) was about 60 mg dry weight per g fresh weight. The possible relationships between dry matter accumulation and senescence onset are discussed.     

Interaction of carbon and nitrogen metabolism in the productivity of maize

Five maize (Zea mays L.) hybrids, FS854, B73 × Mo17, B84 × Mo17, B73 × B77, and P3382, grown under field conditions, were sampled at intervals during the grain-filling period. Plants were subdivided into stalks (including sheaths), leaves, and kernels. These parts were assayed for dry weight, reduced nitrogen, and extractable nonstructural carbohydrates. The duration and rates of net nitrate reduction and photosynthesis were approximated by the changes over time in the accumulation of reduced nitrogen and dry weight by the plant (total, above ground), respectively.

Data on the accumulation of reduced nitrogen and dry weight by the plant show that decreases in nitrate reduction preceded (in time and extent for four of the hybrids and in extent for FS854) decreases or cessation of photosynthesis. FS854 continued to accumulate reduced nitrogen and dry matter throughout the grain-filling period.

The patterns of change in stalk carbohydrate and reduced nitrogen during the early stages of ear development show the stalk serves as a storage reservoir and that these reserves were remobilized during the final stages of grain development. The marked increase and maintenance of dry weight and carbohydrate content of stalks until 34 days after anthesis, shows the capacity of the leaves to produce photosynthate through the first half of the grain-filling period exceeds the needs of the ear and/or the transport system. In contrast, stalk nitrogen content shows a slight increase up to 12 days after anthesis and decreases continually thereafter. Leaf nitrogen was lost continuously throughout grain development. The potential capacity of the plant to supply newly reduced nitrogen was inadequate to support initiation and early development of the kernels without remobilization of vegetative nitrogen. Of the two hybrids having delayed leaf senescence, FS854 with its initially higher concentration and content of reduced nitrogen in the stalk, initiated and developed a bigger ear than P3382, which had lower levels of stalk nitrogen.

Three of the five hybrids had `near linear' rates of accumulation of kernel dry weight, whereas none of the hybrids had linear rates of gain in kernel nitrogen. All hybrids had maximum or near maximum rates of gain of kernel nitrogen between 26 and 34 days after anthesis and a marked reduction (41-52%) of rates in the following sampling interval. These decreases are concurrent with decreases in rates of nitrate reduction (nitrogen accumulation) by the whole plant for four of the hybrids and with decreases in remobilization of nitrogen from the vegetation of FS854. Data for the ratio of rates of accumulation of dry weight/reduced nitrogen by the kernels versus time after anthesis, show that the accumulation of dry weight and reduced nitrogen are independent of each other. The variations in the ratio values appear best related to variations in the availability of nitrogen from the vegetation.

     

The relative content of oocyte and somatic 5S rRNA at different stages of embryonic development as an index of the replacement of maternal ribosomes by ribosomes of the embryo in the loach

Relative content of the oocyte and somatic 5S rRNA in loach Misgurnus fossilis L. during development was determined electrophoretically. Embryos before hatching contain 70% and swimming larvae no less than 50% of the oocyte 5S rRNA. We assume that the relative content of 5S rRNA fractions reflects the proportion between ribosomes synthesized during oogenesis and those synthesized in embryos and larvae. We calculated using previous data (Timofeeva, Kafiani, 1964) the rates of maternal ribosome decay and ribosome synthesis in the embryo. During organogenesis these rates appear to be 1.17-1.09 x 10(6) and 1.7 x 10(6) molecules/sec per embryo, respectively.     

A Quantitative Estimation of Alkali-labile Indole-3-Acetic Acid Compounds in Dormant and Germinating Maize Kernels

An estimate has been made of the quantities of alkali-labile esters of indoleacetic acid (IAA) in kernels of sweet corn (Zea mays). The amount is between 70 to 90 mg of IAA per kilogram of dry kernels. About one-half of the IAA is present as high molecular weight esters and the remaining one-half as esters of myo-inositol. Free IAA, which may have existed in the kernels, or may have resulted from ester hydrolysis during isolation or storage, amounts to between 1 to 10% of the esterified IAA. Five newly observed low molecular weight indoleacetyl compounds are described and their chromatographic behavior reported. The total IAA content of corn kernels and intact seedlings decreases during germination, declining to about 10% of the original content during 96 hr of germination. Difficulties in obtaining quantitative results and the possible physiological significance of these results is discussed.     

Polyamine Titer in the Embryonic Axis and Cotyledons of Glycine max (L.) during Seed Growth and Maturation

Active polyamine metabolism occurs in Glycine max (L.) seeds during development. Most (≥97%) of putrescine (Put), spermidine (Spd), spermine (Spm), and cadaverine (Cad) are present as free forms in the growing embryo. In the cotyledon or embryonic axis, Put decreases to a nearly undetectable level, while Spd level sharply increases as seed dry weight accumulation progresses. Spm level in the axis also increases along with the Spd level. There is little change in Spm level in the cotyledons. Maturation and dehydration results in a slight reduction of Spd level in the cotyledons. Cad is present in relatively large quantities (5.5-12 micromoles per gram dry weight) in the axes of mature soybean seeds. Only traces of Cad, as expressed on a dry weight basis, are found in the developing or mature cotyledons. The synthesis and accumulation of Cad in the axis begins at the time when the axis or the seed accumulates 30 to 50% of its maximum dry weight. The Cad accumulation (0.8 nanomole per axis per day) proceeds until the later stages of dehydration. When soybean plants are subjected to complete defoliation and shade during the midpoint of seed maturation, Cad accumulation in the axis and seed dry weight accumulation ceased almost immediately. The treatment, however, does not affect the viability of soybean seeds.     

Mitochondria in the flight muscles of insects. III. Mitochondrial cytochrome c in relation to the aging and wing beat frequency of flies

1. In the present study a correlation has been sought between aging, flight muscle mitochrondria (sarcosomes), cytochrome c, and flight ability in the blowfly, Phormia regina. 2. During the 1st week of adult life, individual sarcosomes increase in mass from 2.7 x 10^–7 µg. dry weight at the time of emergence, to 8.5 x 10^–7 µg. by the 7th day. During this period of growth, the number of sarcosomes per fly (6.7 x 10⁸) remains constant. When mature, the sarcosomes account for 32.6 per cent of the total muscle dry weight, or close to 40 per cent on a wet weight basis. 3. It appears probable that the high content of flight muscle cytochromes is entirely localized in the sarcosomes. The cytochromes continue to be synthesized and increase in titer within the sarcosomes for 7 days after adult emergence. 4. As determined spectroscopically, the various cytochrome components at all times maintain a constant ratio both to one another and to the sarcosomal dry weight. This suggests the possibility that the cytochrome system may be synthesized as a single entity. 5. The wing-beat frequency of Drosophila funebris and Phormia varies with the age of these flies, being lowest at the time of emergence and maximum after the 6th day. 6. The relations between wing-beat frequency, respiration during flight, and sarcosomal cytochrome c content are discussed. On the basis of some likely assumptions it is calculated that the cytrochrome c turnover number is over 5,000, and that the cytochrome c turns over once for every two wing-beat cycles.     

不同立地类型和土壤类型对"裕丹参"生长和有效成分含量的影响

采用大田种植和盆栽方法,分别研究了不同的立地类型(平地、阳坡、阴坡和坡地)和土壤类型(砂土、壤土和黏土)对产自河南省方城县的"裕丹参"(Salvia miltiorrhiza Bunge)生长和有效成分含量的影响效应.结果表明:在不同立地条件下,"裕丹参"的各项生长和根系产量指标以及根系中丹参酮ⅡA和丹酚酸B含量均有明显差异.随种植时间的延长,平地、阳坡和坡地种植的"裕丹参"单株地上部干质量均逐渐降低,而阴坡种植的单株地上部干质量先升高后逐渐降低;但在不同立地类型下,单株根系干质量和丹酚酸B含量均随种植时间的延长逐渐升高,而丹参酮ⅡA含量则先降低后升高.采收期,平地种植的"裕丹参"的单株地上部干质量、单株根系干质量和鲜质量以及根系鲜产量均最高,平地和坡地种植的"裕丹参"根直径较大,阳坡种植的"裕丹参"根长最长,阳坡和坡地种植的"裕丹参"单株根数、根系中丹参酮ⅡA和丹酚酸B含量也较高,而阴坡种植的"裕丹参"的各项生长和根系产量指标以及丹参酮ⅡA和丹酚酸B含量均最低.在不同类型土壤中,"裕丹参"的根系性状和根系中丹参酮ⅡA和丹酚酸B含量总体上差异显著,其中,用砂土种植的"裕丹参"的根直径、根长、单株根系鲜质量和干质量以及根系中丹参酮ⅡA和丹酚酸B含量均最高,但单株根数最少;用黏土种植的"裕丹参"根系生长总体最差,但单株根数最多;用壤土种植的"裕丹参"根系中丹参酮ⅡA和丹酚酸B含量则最低.综合研究结果显示:"裕丹参"适宜种植于砂土的坡地或阳坡.     

Seasonal field analyses of water and fat content in the long-lived millipede Polyzonium germanicum (Diplopoda, Polyzoniidae)

Two hundred and seventy-nine Polyzonium germanicum individuals of various stadia were collected seasonally in winter, late spring-early summer (the breeding period) and early autumn. Fresh weight, dry weight and defatted dry weight were determined for each specimen. Seasonal changes in water content and fat content, expressed as percentages of defatted dry weight, were analysed in relation to body size and sex. Changes in water content were more pronounced in the smallest individuals (juveniles), whereas changes in fat content were more pronounced in the largest (adults). Seasonal fluctuations in water and fat content were similar in both sexes despite the sexual dimorphism of body weight. The results suggest the following relationships within the species life-cycle: (i) water content increases during the warm months (up to 295% for juveniles in early autumn), which coincides with the moulting period, (ii) Fat content increases subsequently to moulting; overall maxima are reached in early autumn (population mean = 62–5%), as well as in early summer for the young, (iii) Both water and fat content decrease (to about 150% and 50%, respectively) in winter; however, there is no evidence of starvation–at least in ovigerous females which increase in dry weight during that season, (iv) Fat content strongly decreases (below 30% in the largest specimens) in adults of both sexes during the breeding period.     

Changes in biochemical composition and energy utilization during metamorphosis of leptocephalous larvae of the bonefish (Albula)

Synopsis Energy use and changes in whole-body content of lipid, protein, nitrogen, carbohydrate and ash were followed during metamorphosis of leptocephalous larvae of the bonefish (Albula). During metamorphosis, which requires about 8–12 days, larvae lost about 3–4 mg of lipid, or about 50% of the total lipid content. Lipid levels, calculated on a dry weight basis, showed no discernible trends, with values ranging from 138–185 mg (g dry wt)^–1. Protein content was 8.4 mg per larva and showed no significant change. However, protein levels increased from 147 to 329 mg (g dry wt)^–1. Nitrogen content decreased slightly from about 3.5 to 3.2 mg per larva. A comparison of protein and nitrogen values, expressed as % dry weight, showed that, in larvae which were just beginning to metamorphose, 70% of the total nitrogen was non-protein nitrogen (NPN). The NPN decreased to 58% of the total nitrogen towards the end of metamorphosis. Carbohydrate content fell from about 3.5 to 0.6 mg per larva, which represents an 83% loss. Carbohydrate levels also fell from about 81 to 32 mg (g dry wt)^–1. In addition, most of the carbohydrate appears to be bound to protein. Ash content decreased by 52%, from 4.6 to 2.2 mg per larva. Caloric content fell slightly from about 182 to 141 calories per larva whereas caloric density showed no discernible trends, with values ranging from 4.180 to 4.725 kcal (g dry wt)^–1. These results indicate that metamorphosing leptocephali, which apparently do not feed, probably derive most of their energy requirements from metabolizing endogenous lipid and carbohydrate stores formed during the premetamorphic interval.     

Imprinting of distal mouse chromosome 2 is associated with phenotypic anomalies in utero

Previous studies have shown that the distal region on mouse chromosome (Chr) 2 is subject to imprinting as mice with maternal duplication/paternal deficiency (MatDp.dist2) and the reciprocal (PatDp.dist2) for this region exhibit phenotypic anomalies at birth and die neonatally. We show here that imprinting effects are detectable in utero. Notably PatDp.dist2 embryos show an increase in wet weight compared with normal, which peaks at 16.5 d post coitum (dpc), and diminishes by birth, whereas the wet weight of placenta is slightly reduced in the latter half of gestation. Newborns have increased length of the long bones. By contrast, the wet weight of MatDp.dist2 embryos decreases during the second half of gestation. Measurements of dry weights of embryos at 16.5 dpc have indicated that there is no difference in either PatDp.dist2 or MatDp.dist2 compared with normal so that the wet weight differences are due to fluid retention in PatDp.dist2 but fluid loss in MatDp.dist2. In PatDp.dist2 embryos excess fluid is particularly prominent in the subcuticular skin layer, whereas by birth fluid is evident around the neck and tongue. At 16.5 dpc the PatDp.dist2 embryos are severely oedematous, as the average fluid content per unit dry weight per embryo was increased by 40%, whereas the MatDp.dist2 embryos are dehydrated as the average water content per unit dry weight per embryo was reduced by 6%. A preliminary conclusion is that there is neither growth enhancement in PatDp.dist2 nor growth retardation in MatDp.dist2 offspring.     

Changes in the Content of Sugars and Amino Acid in the Fruit of Lycopersicon esculentumafter Quercetin Treatment

We studied the effect of low doses of quercetin, an exogenous flavonoid, on the content of various sugars in the fruit of Lycopersicon esculentum. The content of glucose in tomatoes calculated per dry weight increased 1.5- to 4.5-fold in the experiment compared with the control. Simultaneously, we observed a decrease in the content of total amino acids in the fruit of quercetin-treated plants (1.5 times compared to the control). The most significant changes were noted in the content of amino acids: glutamic (1.7-fold) and aspartic (1.6-fold). The treatment of plants with quercetin did not decrease their productivity. An increase in the level of glucose in tomatoes has been found in all 12 varieties studied. We discuss the mechanism of the possible effect of quercetin on tomato plants.     

Flavonoid Production in Transformed Scutellaria baicalensis Roots and Ways of Its Regulation

A root culture of skullcap (Scutellaria baicalensisGeorgi) transformed with pRi T-DNA was initiated by the inoculation of sterile seedlings with Agrobacterium rhizogenes(wild-type strain A-4). The flavonoid concentration in cultured roots comprised 5% of the root dry weight and was maintained essentially constant during a subculture. For four weeks of culturing, the weight of the roots increased by 20–30 times; when the roots were cultured for a longer time and with periodic enrichment of the nutrient medium, their weight increased 50-fold. Skullcap roots were shown to synthesize flavones characteristic of intact roots (wogonin, baicalein, and baicalin). The addition of 0.01–1 mM L-phenylalanine (a precursor of flavonoids) to the nutrient medium affected neither root growth, nor their flavonoid concentration. Root elicitation with 100 M methyl jasmonate for 72 h increased the flavonoid content per flask and per root dry weight by 1.8 and 2.3 times, respectively.     

contribution to the study of nuclear total proteins and DNA during the mitotic cycle in fibroblasts cultivated in vitro and in Ehrlich ascites cells

Summary The dry weight and total protein content of nuclei has been measured by interferometry in living or fixed cells cultivated in vitro (freshly prepared chick, mouse or rat embryo fibroblasts) and in fixed Ehrlich ascites tumor cells of the mouse growing in vivo. The DNA content was estimated by cytophotometry after Feulgen reaction in the same nuclei. The dry weight of nucleoli in fibroblasts and the dry weight and DNA content of chromosomes in dividing fibroblasts and Ehrlich tumor cells have also been measured.During the interphase in fibroblasts, the dry weight of the living nucleus and the nuclear total protein content as measured in fixed cells doubles during the preparation for mitosis, as the DNA content does. In chick and mammal fibroblasts and within the limits of accuracy of our measurements, the synthesis curves for nuclear proteins and DNA do not seem to be necessarily identical.In our fibroblasts, the nucleolar total dry weight per nucleus doubles during the interphase (nucleolar preparation for mitosis); it increases in proportion to the nuclear total protein content, even in polyploid nuclei.During the mitosis, the chromosomes contain all the DNA of the nucleus but some nuclear proteins (non chromosomal proteins) seem to move into the cytoplasm during the mitosis and return into the nucleus at the post-telophase.According to our observations, Ehrlich ascites mouse tumor cells are near-tetraploid as far as the number of chromosomes, nuclear total protein content and DNA content are concerned. During the preparation for mitosis, these amounts double but no necessary close time relation seems to link these premitotic syntheses. Prom this point of view, our results show no clear-cut differences between these tumor cells and the fibroblasts. Except the polyploidy, the behaviour of nuclear proteins and DNA during mitosis in the tumor cells is the same as that observed in our fibroblasts.The effects of various antimitotic agents on rat fibroblasts cultivated in vitro have also been studied with our cytochemical methods. Our measurements of nuclear protein, DNA and nucleolar material content have been made in cells in which mitosis was prevented by alkylating agents, beryllium sulphate, RNase or neutral DNase. The effects of colchicine on these cellular parameters have also been studied.     

The Fate of the Dry Matter, Carbohydrates and 14C Lost from the Leaves and Stems of Wheat during Grain Filling

In a field study with six winter wheat genotypes losses of drymatter from the stems between 30 June and maturity averaged172 g m^–2 (range 82–236), there being significantdifferences in loss between genotypes. Respiration from thestems during the same period was estimated to amount to 106g m^–2 (range 104–225). The amount of dry mattermobilized from the stems, calculated by difference, was estimatedas 66 g m^–2. The loss of ethanol- and water-soluble carbohydratefrom the stems (170 g m^–2; range 124–215) was verysimilar to the dry weight loss. Carbon-14 labelling was used to trace the time course and theamount of the movement of assimilates from the vegetative organsto the grain. Only 14•3 per cent (range 10•3–21•0)of the products of photosynthesis over the period 21 May-20June were relocated to the grains. This relocation amountedto an average of 7 per cent (range 5•7–11•4)of the final grain weight. It was estimated that during the18 days following anthesis on 20 June photosynthesis contributed48 per cent (range 39–55) of the final grain dry weight.Of this, about half was translocated to the grain within 10days of initial assimilation. The remainder appeared to be storedtemporarily in the stems and leaves and translocated to thegrains during the period 17–29 July. In general, relocationof dry matter from the vegetative organs to the grains, assessedby carbon-14 labelling, was greatest in those genotypes (Hobbitand Sportsman) which lost most dry weight from the stems andleaves.     

The 'Gut index', a new parameter to measure the gross nutritional state of arctic char, Salvelinus alpinus (L.) and brown trout, Salmo trutta L.

The main energy reserves in brown trout, Salmo trutta and Arctic char, Salvelinus alpinus are located in the abdominal cavity and the musculature. The energy content of the rest of the intestines after removal of the gonads, swim bladder, and liver is a good parameter to assess the gross nutritional state of Arctic char and brown trout. This method is laborious, but analysing the dry matter fraction (or the water content) of the same organs instead of their energy content is a practical alternative. The dry matter fraction of these organs expressed as a percentage of its wet weight is here called the 'Gut index'.