Urea uptake by phytoplankton at various stages of nutrient depletion

Uptake of ¹⁴C-urea by Thalassiosira pseudonana and Skeletonemacostatum grown in batch culture with NO₂^– and NO₃^–as nitrogen sources was measured under three conditions: pre-depletion(when nitrogenous nutrient was present in the culture mediumat saturating concentrations), at-depletion (when nitrogenousnutrient could no longer be detected), and several hours post-depletion.V_max-urea, the initial instantaneous uptake rate, remained constantunder all three conditions, and was in excess of uptake ratesrequired for cellular doubling. Variations in uptake under thethree conditions were observed, as functions of the length oftime over which uptake was observed and the growth rate of theculture. The maximum instantaneous uptake rate was not differentfor the three conditions; variations in uptake were due to theperiod of time over which the maximum uptake rate was maintained.The ability of cells to take up urea rapidly, even when adequatelynourished by NO₂^– and NO₃^–, could be of significancein a low and variable urea-nutrient regime in the natural environment.     

Total hemicelluloses from wheat at different stages of growth

The changes in total hemicellulose composition of leaf and stem tissues of field-grown wheat plants have been examined. In each plant tissue the percentage of xylose in the total hemicellulose increases with increasing plant maturity, that of galactose varies little and those of L-arabinose, D-glucose, and uronic acid decrease. There is a markedly higher proportion of D-glucopyranuronosyl than of 4-O-methyl-D-glucopyranuronosyl residues in leaf and stem tissues at all stages of maturity. The ratio of β(1 → 3) to β(1 → 4) linkages in the β-glucans, and the DP of these β-glucans decrease concommitantly with tissue maturity.     

Effect of complete plant submergence at different growth stages on grain yield,yield components and nutrient content of rice

Summary Of the three growth stagesviz., seedling establishment, maximum tillering and flowering, complete submergence of plant at flowering stage was found to be most critical followed by seedling estabilishment and maximum tillering stages. Among the three stages of reproductive growth phase, booting stage was found to be most susceptible to complete submergence followed by flowering and post-flowering. The submergence at booting for 4 days was equally detrimental as that of 6 or 8 days at flowering. Irrespective of the growth stages, the plants subjected to complete submergence showed higher nitrogen content (in plant as well as in grain) as compared to those grown under control conditions (5±2 cm) and increased with the increase in duration of submergence. The P and K contents in the plant decreased under submergence.     

Phosphorus uptake rates of cotton roots at different growth stages from different soil layers

A greenhouse experiment was conducted to determine P uptake at different growth stages by cotton plants from upper and lower 30 cm layers of 60 cm deep uniform soil columns. A radioisotope tracer technique was used to separate uptake from the two soil layers. Root lengths were measured in both layers at each growth stage. P fluxes were calculated for each layer. Root length increased significantly with time from square formation through peak flowering. At all growth stages, total P uptake from the upper soil layer was greater than that from the lower soil layer. P flux from either layer was greater during early growth stages than during later stages. A significant decrease in P flux occurred when plants reached the flowering stage. The flux from the upper layer was about twice that from the lower layer at square forming stage but the difference decreased as the plants matured. Both layers showed similar P fluxes at the first open boll stage. Our data indicate that roots located 30 to 60 cm below the surface are less effective per unit root length than those located at 0 to 30 cm depth when all roots are in the same soil environmental conditions. However, the effectiveness of P absorption from different soil depths under field conditions may depend on the environmental conditions that exist in each soil depth.     

Sex ratios in mule duck embryos at various stages of incubation

Mule duck hatcheries have long reported varying degrees of unbalance in the sex ratio, with a preponderance of male mules at hatching. The aim of the present study was to assess the distributions of sex ratios at various stages of development in embryos originating from intra- and intergeneric crosses between parental lineages (Muscovy male x Muscovy female, Pekin male x Pekin female, Muscovy male x Pekin female or Mule, and Pekin male x Muscovy female or Hinny). In Experiment I, embryo sexing was performed on Days 1 and 5 of incubation (by multiplex PCR) and at hatching (by vent observation). The sex ratio was not significantly modified during the early stages of embryo development whatever the genetic origin (P>0.05, Days 1 and Day 5) but our results in mule and hinny ducklings confirmed the preponderance of males among normally hatched ducklings originating from the intergeneric lineage (58.9 and 55.4% males in mules and hinnies, respectively; P<0.05 in both cases). Sex ratio (vent sexing) in second grade (cull) ducklings revealed that 68% of these ducklings were females (P<0.05). In Experiment II, the distribution of sex ratio was also performed in mule duck eggs from 6 batches (400,000 eggs/batch) first examined for fertility (candling) on Day 18 of incubation. These results indicate that the percentage of males present in the population of normally hatched ducklings increases when fertility decreases. In addition, this experiment also revealed that 83.7-90.5% of viable male mule embryos develop up to hatching, compared to only 43.0-51.0% of female mule embryos. Given that a deviation in sex ratio during the first stages of incubation is unlikely (Experiment I), it is concluded that the skewed sex ratio of mule ducks at hatching is primarily due to increased late mortality in female mule embryos occurring between egg transfer and hatching. This mortality originated, at least in part, from the intergeneric origin of female mules, and was marked to a greater or lesser extent depending on the initial success of fertilization in a given batch, a possible indication that the initial quality of gametes may selectively exert its influence at the later stages of embryo development.     

Reserve nutrients of the trematode Fasciola hepatica at various stages in its ontogeny

A comparative histochemical study for the presence of reserve nutrients (glycogen, fat) in tissues, organs of parthenitae (sporocysts, rediae) and larvae (miracidia, cercariae, adolescariae) of Fasciola hepatica from liver of sheep and cattle was carried out. The glycogen amount prevails at all developmental stages of Fasciola from sheep as compared to those from cattle. Fat was found in tissues and organs of parthenitae and larvae of this trematode in equal amount. Its reserves are obviously smaller than those of glycogen.     

3种菊科入侵植物不同生长时期的土壤酶活性和养分变化

【目的】黄顶菊、三叶鬼针草和豚草是我国危害较严重的3种菊科入侵植物。了解3种菊科植物生长过程中土壤养分和酶活性的变化,可以为研究其入侵机制提供依据。【方法】在中国农业科学院植物保护研究所廊坊中试基地开展同质园实验,比较分析了黄顶菊、三叶鬼针草和豚草3种菊科入侵植物在幼苗期、旺盛生长期和生殖生长期根际土壤养分和酶活性的变化。【结果】3种外来菊科植物的生长时期对土壤养分和酶活性存在显著影响。3种外来植物入侵域的土壤速效磷、硝态氮含量以及磷酸酶活性随生长时期变化都表现出先升高后降低的趋势,均在旺盛生长期达到最大值。入侵域土壤速效磷和硝态氮含量的变化趋势与狗尾草明显不同。3种外来植物入侵降低了土壤速效钾含量,提高了土壤脲酶、磷酸酶活性。【结论】3种外来菊科植物的入侵改变了土壤养分和酶活性,创造出更有利于自身生长和繁殖的条件,以利于其进一步扩张。     

Rhizosphere microbial community structure at different maize plant growth stages and root locations

The aims of the present work were (1) to determine the influence of plant growth stages on the population size of culturable bacteria and fungi associated with rhizoplane and endo-rhizosphere of maize grown in field and (2) to establish the community structure of total culturable bacteria and fungi. Density, diversity and community structure of culturable rhizoplane and endo-rhizosphere populations at different maize plant growth stages were estimated. Plant development did not have influence on total culturable microflora density but it selectively influenced some bacterial and fungal groups present in the rhizosphere. However, the microbial community structure changed markedly over time. This knowledge is relevant for exploring endophytic rhizobacteria potential in the promotion of plant-growth, protection against pathogens and to detect perturbations in natural agro ecosystems.     

内蒙古典型草原不同恢复演替阶段植物养分化学计量学

对内蒙古典型草原不同恢复演替阶段群落土壤养分动态及空间格局、植物养分及其化学计量比时空动态、植物与土壤养分相关性等进行了分析, 以揭示放牧干扰对植物的养分及其化学计量比影响。结果表明: 土壤各养分含量表现为恢复群落略高于严重退化群落, 土壤全氮(STN)/土壤全磷(STP)恢复群落高于严重退化群落, 土壤有机质(SOC)/STN恢复群落低于严重退化群落; 大多数植物叶片C含量在恢复群落最高, 严重退化群落最低, 与恢复演替时间呈正相关, 而植物的全氮(TN)和全磷(TP)含量则是严重退化群落最高, 恢复群落最低, 与退化程度呈正相关, 且TP含量的变幅明显高于TN含量; 植物叶的N:P和C:N表现为严重退化群落最低, 与退化程度呈负相关; 严重退化群落植物相对于P而言, 总体上表现为缺N; 而恢复群落相对于N而言, 更为缺P, 或同时缺N和P; 群落优势种化学计量学特征对群落演替方向有一定的指示作用。     

Some properties of pea cholinesterase and its activity in plant parts at different growth stages

Cholinesterase activity was studied in 2 to 10-week-old pea plants cultivated under artificial illumination. Free and membrane-bound forms of the enzyme were separated by extracting the enzyme from pea shoots with buffers differing in ionic strength. The ratio of the free cholinesterase to the membrane-bound one fluctuated between 1 : 1 and 1 : 2.5. The free cholinesterase was inhibited by neostigmine (0.1mmoll^-1) by 50%, the membrane-bound enzyme by 90%. The pH optimum of cholinesterase activity was 8.5, the temperature optimum 37 °C. The enzyme activity was increased by some cations in this order: Mg²⁺ < < K⁺. The K^m value for the substrate S-acetylthiocholine iodide was 250 μmoll^-1, the enzyme activity being inhibited by concentrations higher than 3 mmoll^-1 of this substrate. The activity of the membrane-bound enzyme was demonstrated in the roots, leaves, stems, fruits, seeds and carpels, but could not be reliably detected in the blossoms. The highest activity expressed per fresh matter was found in older leaves and in the fruits, the lowest in the roots and stems. Cholinesterase activity in plant parts markedly varied during the investigated growth period.     

Amending soils of different texture with six compost types: impact on soil nutrient availability, plant growth and nutrient uptake

Background

Composts with different feedstocks may have differential effects on soil properties and plant growth which, may be further modulated by soil texture.

Materials and methods

In a 77-day pot experiment in the glasshouse, we investigated the effect of a single application as mulch of six types of composts derived from different starting feedstocks in two soils (13% and 46% clay, referred to as S13 and S46) on soil physical, chemical and biological properties, plant growth and nutrient uptake. Composts were placed as 2.5?cm thick mulch layer on the soil surface and wheat plants were grown and harvested at 42?days and at 77?days (grain filling).

Results

Composts differed in total and available N and P and particle size with C1, C3, C4 and C5 being fine-textured, whereas C2 and C6 were coarse-textured. Compost addition as mulch increased soil total organic C and EC, but had no effect on pH. In all treatments, cumulative soil respiration was higher in S13 than in S46 and was increased by compost addition with the greatest increase with C2 and C6. Compared to the unamended soil, most compost mulches (except C2) increased macroaggregate stability. Compost mulches significantly increased available P and N in both soils, except for C2. Compost mulches increased available N up to 6-fold in both soils with the strongest increase by C5. Most composts also increased wheat growth and shoot P and N concentrations with the greatest effect on plant N concentration by C5 and on plant P concentration by C4. However, C2 decreased shoot N and P concentrations compared to the unamended soil. Most compost mulches (except C2) increased mycorrhizal colonization by up to 50% compared to the unamended soil.

Conclusions

Fine-textured compost mulches generally had a greater effect on soil properties and plant growth than coarse-textured composts. Despite distinct differences between the soils with respect to clay content, TOC and available P, the effect of the compost mulches on soil and plant properties was quite similar.     

铜、镉对三种豆科植物生长及氮磷钾含量的影响

为了解豆科植物在Cu、Cd单一污染土壤中的生长状况及对土壤养分的吸收利用特点,采用盆栽实验研究了Cu~(2+)、Cd~(2+)单一污染下紫花苜蓿、红三叶、沙打旺3种豆科植物的株高、根长、生物量和叶、茎部N、P、K、Cu和Cd含量的变化情况.Cu~(2+)、Cd~(2+)处理浓度分别为:0、400、800、1200 mg·kg~(-1)和0、1、10、20 mg·kg~(-1).结果表明,3种豆科植物对Cu和Cd均有较强的吸收能力,除红三叶叶片中Cu含量外,3种豆科植物根、茎、叶中Cd和Cu的含量均与土壤中重金属添加量呈显著正相关.3种豆科植物在严重Cd~(2+)污染的土壤中均能正常生长.在Cu~(2+)添加量≤1200 mg·kg~(-1)时,红三叶能正常生长,而紫花苜蓿的生长则受到显著抑制作用,沙打旺在Cu~(2+)添加量≥800 mg·kg~(-1)时生长受到抑制.土壤Cu~(2+)添加量≤1200 mg·kg~(-1)时,能促进紫花苜蓿对N、P、K的吸收;Cu~(2+)添加量≤800 mg·kg~(-1)时,对红三叶N、P、K含量没有明显影响;Cu~(2+)添加量≤400 mg·kg~(-1)时,可提高沙打旺中N、P、K含量,但当Cu~(2+)添加量≥800 mg·kg~(-1)时则显著降低.土壤Cd~(2+)添加量≤20 mg·kg~(-1)时,对紫花苜蓿和红三叶茎叶以及沙打旺茎部的N、P、K含量有促进作用,但对沙打旺叶片的N、P、K含量起抑制作用.总体来看,3种豆科植物对Cu~(2+)和Cd~(2+)均有一定的耐性,红三叶对Cu~(2+)的耐性较好,紫花苜蓿对Cd~(2+)的耐性较好.

Abstract：

Aimed to understand the growth status and nutrient uptake of leguminous plants under soil copper-or cadmium contamination, a pot experiment with Medicago sativa, Trifolium pre-tense, and Astragalus adsurgens was conducted, with their plant height, root length, plant bio-mass, and N, P, K, Cu and Cd contents in leaf and stem measured. The application amounts of Cu~(2+) and Cd~(2+) were 0,400, 800, and 1200 mg·kg~(-1), and 0, 1, 10, and 20 mg·kg~(-1), re-spectively. All the test three leguminous plants had strong capability of absorbing Cu and Cd.The Cu and Cd contents in their roots, stems, and leaves, except the Cu content in T. Pratease leaf, were significantly positively correlated with the application amounts of Cu~(2+) and Cd~(2+). Un-der the application of Cd~(2+), all the three leguminous plants grew normally. When the application amount of Cu~(2+) was≤1200 mg·kgM-1, T. Pratense grew normally, while the growth of M. Sativa was significantly inhibited. The growth of A. Adsurgens was inhibited when the application amount of Cu~(2+) was≥800 mg·kg~(-1). An apphcation amount of≤1200 mg·kg~(-1) of Cu~(2+) pro-moted the N, P and K absorption of M. Sativa, but applying≤800 mg·kg~(-1) of Cu~(2+) had little effects on the N, P and K absorption of T. Pretense. The N, P and K contents of A. Adsurgens in-creased when the application amount of Cu~(2+) was ≤400 mg·kg~(-1), but decreased significantly when the Cu~(2+) application amount was≥800 mg·kg~(-1). When the application amount of Cd~(2+)was≤20 mg·kg~(-1) , the N, P and K contents in M. Sativa and T. Pratense stems and leaves and in A. Adsurgens stem increased, while those in A. Adsurgens leaf decreased. As a whole, the three leguminous plants all had certain tolerance to Cu~(2+) and Cd~(2+) stresses, especially T. Prat-ease to Cu~(2+) and M. Sativa to Cd~(2+).     

Effect of irrigation frequency and nitrogen on groundnut yield and nutrient uptake

Summary Field experiments were conducted during 1979 and 1980 summer seasons on sandy loam soils of low moisture retentive capacity to study the effect of high frequency irrigation at different levels of N on groundnut yield and nutrient uptake (NPK). Four irrigation frequencies (irrigation at 2, 4, 6 and 8 cm cumulative can evaporation, corresponding to irrigation once in 3, 5, 7 and 10 days respectively) and four levels of nitrogen (0, 20, 40 and 60 kg N/ha) were tested in a factorial randomized block design with three replications. Pod yield of groundnut was maximum (3,293 kg/ha) when irrigations were scheduled at 4 cm cumulative can evaporation (once in 5 days). Addition of N did not increase the pod yield. N and P uptake by the crop was maximum (180 kg N and 18 kg P/ha) with high frequency irrigation of scheduling irrigation at 4 cm cumulative can evaporation. Highest uptake of N (183 kg/ha) and P (19 kg/ha) was with a combination of 20 kg N/ha and high frequency irrigation (4 cm CCE). K uptake was low with low irrigation frequency, while it was highest (67 kg K/ha) at 20 kg N/ha.     

Influence of aluminum in nutrient solutions on chemical composition in two rice cultivars at different growth stages

Summary A solution culture experiment was conducted using 2 rice cultivars (EEA 304, and CICA 4) to determine the effects of Al concentrations on chemical composition. The treatments consisted of five Al concentrations: 0, 10, 30, 40 and 60 ppm.Aluminum content in plant tissues way increased with increasing levels of Al in two cultivars. Increased Al concentrations in the nutrient solution exerted an inhibiting effect on the uptake of N, P, K, Ca, Mg, S, Fe, B, Cu, Zn, and Mn. Rice cultivars responded differently to Al treatments with respect to nutrients uptake. Tolerant cultivar, EEA 304, absorbed more phosphorus compared to susceptible cultivar CICA 4. Macro and micronutrients inhibiting effect was much lower in this Al tolerant cultivar. These results suggested that one of the Al tolerance mechanism in rice cultivars is associated with more efficient nutrients uptake.     

High fertigation frequency: the effects on uptake of nutrients, water and plant growth

The objective of the present research was to explore the effects of combined irrigation and fertilization (fertigation) frequency on growth, yield and uptake of water and nutritional elements by plants. Lettuce (Lactuca sativa L., cv. Iceberg) was used as the model plant. Two experiments were conducted in a screen-house: compound fertilizer at a constant N:P:K ratio at different concentrations was used in the first, while in the second the concentration of P varied solely while the concentration of the other nutritional elements was kept constant. The lettuce was planted in pots filled with perlite and irrigated daily with a constant volume of nutrient solution at different frequencies. The major finding in the two experiments was that high fertigation frequency induced a significant increase in yield, mainly at low nutrients concentration level. Yield improvement was primarily related to enhancement of nutrient uptake, especially P. It was suggested that the yield reduction obtained at low frequency resulted from nutrient deficiency, rather than water shortage, and that high irrigation frequency can compensate for nutrient deficiency. Frequent fertigation improved the uptake of nutrients through two main mechanisms: continuous replenishment of nutrients in the depletion zone at the vicinity of root interface and enhanced transport of dissolved nutrients by mass flow, due to the higher averaged water content in the medium. As such, an increase in fertigation frequency enables to reduce the concentrations of immobile elements such as P, K and trace metals in irrigation water, and to lessen the environment pollution by discharge.     

Glucose uptake by chicken embryo hearts at various stages of development

d-glucose, but not l-glucose, was found to readily enter the cells of 5- to 6-day chick embryo heart. This suggests the operation of a specific transport system for glucose. The rate of glucose uptake was found to decrease as development proceeds from 5 to 15 days of development, but no further decrease was found between 15 and 20 days. Uptake of glucose is a saturable process, from 5–6 days of embryonic life on. The large decrease in glucose uptake between 5 and 10 days of development is found to be associated with a fourfold increase in the apparent K_m of the uptake process. From 10 days of development onward, the apparent K_m remains about 40 mM. The rate of 2-deoxyglucose uptake also decreased from 5 to 15 days of embryonic life with no further decrease from 15 to 20 days. Glucose competitively inhibits the uptake of 2-deoxyglucose with a K_i close to the K_m for glucose uptake. The uptake of 2-deoxyglucose is stimulated by physiological levels of insulin as early as 5–6 days, although the extent to which insulin enhances uptake is not quite as great as at 15 days of development.     

Effect of long-term fertilizer treatments on groundnut yield,nodulation, and nutrient uptake at Samaru,Nigeria

It was observed in a long-term fertility study that P application results in better nodulation and seed yield. The N yield per plant increased significantly with P, K, and B application, but the promoting effect of K and B on N content per plant was not reflected in the final yield. Data on mean nutrient uptake indicate that about 63% of N, 68% of P, 23% of K, 4% of Ca and 24% of Mg were present in the kernels, the remainder being in the haulm and shells. Soil will be exhausted fast if the nutrient rich groundnut residues are completely exported from the field and not compensated by adequate fertilizer application. Judicious use of fertilizers on groundnut has been shown to yield more than 100 kg of biologically fixed N per hectare.