Can hydrochar and pyrochar affect nitrogen uptake and biomass allocation in poplars?

Positive effects of pyrochar on soil nutrient availability and plant growth are widely reported in literature. However, few studies have reported effects of hydrochars on plant nutrition. A pot trial was conducted over a period of 2 years to investigate the effect of a pyrochar (AGT) and a hydrochar (HTC) on poplar (Populus × generosa , clone AF8) growth, biomass allocation and nitrogen (N) uptake with special emphasis on the quantification (using an isotopic mass balance approach) of char‐derived nitrogen (CDN) absorbed by plants. We found that both pyrochar and hydrochar positively affected above‐ground biomass productivity in the first year, and biomass and nitrogen (N) allocation over the 2 years by reducing the allocation of resources to fine roots. By the end of the experiment, even though the total N uptake was not affected by char, the CDN was more than 24% of the total N absorbed by HTC‐treated plants compared to a negligible amount absorbed by AGT‐treated ones. Finally, char did not affect nitrogen use efficiency (NUE) in the first year of growth, but by the end of the experiment, NUE was higher in the above‐ground biomass of HTC‐treated than in AGT‐ and control poplars.     

小麦小分子RNA TaMIR1129介导植株抵御低氮逆境功能研究

本研究针对迄今有关小麦小分子RNA(miRNA)家族成员介导植株氮素吸收和利用机理尚少见报道的现状,对TaMIR1129的表达特征和介导植株抵御低氮逆境功能进行了研究。结果表明,TaMIR1129呈低氮胁迫诱导表达,表现为随氮浓度降低(0.02~6mmol/L)和处理时间延长(0~48h)表达水平不断增高特征。此外,低氮诱导的高表达水平在恢复供氮后表达下调。表明该miRNA对介质中氮素应答呈典型的时间及浓度依赖特征。TaMIR1129作用2个靶基因,包括Molybdenum cofactor sulfurase(TaMCS)和Major facilitator family transporter(TaMFFT),上述基因应答低氮特征与TaMIR1129相反。遗传转化结果表明,超表达TaMIR1129具有显著增强植株抵御低氮逆境的能力。表现为与野生型对照相比,转基因系Sen 1和Sen 2低氮处理后植株形态增大,干质量增加,氮累积量增多。表明TaMIR1129与作用靶基因构建miRNA/target模块在介导植株抵御低氮逆境中发挥重要作用。     

猴头菌产量与培养料含氮量的动态关系

选用２０种配方进行猴头菌的栽培试验。培养料配方为棉籽壳、木屑和麦麸，其含Ｎ量为０．２２％￣１．４２％。试验结果表明，猴头菌子实体干物质绝对生物学效率（ＡＢＥ％＝ｙ１），经济效益（ｙ２）与培养料含Ｎ量（Ｎ％＝ｘ１）之间的动态关系符合Ｌｏｇｉｓｔｉｃ方程：ｙ１＝１０．００／（１＋３．４２４２ｅ＾－２．３２１５ｘ１），ｒ’ｙ１ｘ１＝－０．８６４８＾＊＊，Ｐ〉０．０１；ｙ２＝３．００／（１＋８．６７９１ｅ     

Ontogenic Changes in Growth and Assimilate Distribution as Influenced by N Supply in Rapeseed-mustard

Brassica juncea , cv. Pusa Bold, and Brassica campestris , cv. Pusa Kalyani, were raised under field conditions with varying levels of N fertilization, i.e. 0, 40, 80 and 120 kg N ha⁻¹. Changes in dry matter accumulation in various plant parts as influenced by N supply were measured throughout the crop ontogeny. N supply up to 120 kg had an increasing effect on the growth of leaves, stem and pods during the entire period till maturity. Analysis on the assimilate distribution pattern revealed that 84–87% of the total was accumulated during the post-flowering phase. Dry matter partitioning profile during the ontogeny indicated that about 72–83 % of the total DM was accumulated in the leaves, while 17–28 % in the stem, in the preflowering phase. This trend was found nearly opposite during the postflowering phase. At maturity, however, stem and pods accounted for nearly equal amounts of dry matter accumulation. Among the genotypes, Pusa Bold recorded significantly higher DM accumulation and seed yield over Pusa Kalyani which, on the other hand, exhibited a better assimilate-partioning ability than the former. Nitrogen levels had a favourable effect on LAI, LAD and CGR in both genotypes. Highly significant correlations were obtained between seed yield vs. LAI, LAD and CGR. N fertilization up to 120 kg ha⁻¹ was found beneficial in enhancing growth and yield of rapeseed-mustard.     

培养液中铜水平对PK15细胞内铜离子浓度与CuZn-SOD活性的影响

在 PK15细胞无血清液体培养基中添加 0、7.8、15 .6、31.2、6 2 .5 μmol/L Cu,观察了培养液中不同铜水平对PK15细胞内铜离子浓度和 Cu Zn- SOD活性的影响及二者的相关性。结果表明 ,PK15细胞内铜离子浓度及 Cu Zn-SOD活性均随培养液中添加铜离子浓度升高和培养时间的延长而有不同程度的升高 ,其中以添加 Cu31.2 μmol/L组最高 (P<0 .0 5 )。PK15细胞内 Cu Zn- SOD活性与细胞内铜离子浓度和培养时间呈强正相关 (培养时间 :r=0 .873～0 .980 ,P<0 .0 5 ;铜离子浓度 :r=0 .90 0～ 0 .972 ,P<0 .0 5 )     

Response of Cotton to Irrigation Methods and Nitrogen Fertilization: Yield Components,Water‐Use Efficiency,Nitrogen Uptake,and Recovery

Efficient crop use of nitrogen (N) fertilizer is critical from economic and environmental viewpoints, especially under irrigated conditions. Cotton yield parameters, fiber quality, water‐ and N‐use efficiency responses to N, and irrigation methods in northern Syria were evaluated. Field trials were conducted for two growing seasons on a Chromoxerertic Rhodoxeralf. Treatments consisted of drip fertigation, furrow irrigation, and five different rates of N fertilizer (50, 100, 150, 200, and 250 kg N /ha). Cotton was irrigated when soil moisture in the specified active root depth was 80% of the field capacity as indicated by the neutron probe.

Seed cotton yield was higher than the national average (3,928 kg/ha) by at least 12% as compared to all treatments. Lint properties were not negatively affected by the irrigation method or N rates. Water savings under drip fertigation ranged between 25 and 50% of irrigation water relative to furrow irrigation. Crop water‐use efficiencies of the drip‐fertigated treatments were in most cases 100% higher than those of the corresponding furrow‐irrigated treatments. The highest water demand was during the fruit‐setting growth stage. It was also concluded that under drip fertigation, 100–150 N kg/ha was adequate and comparable with the highest N rates tested under furrow irrigation regarding lint yield, N uptake, and recovery. Based on cotton seed yield and weight of stems, the overall amount of N removed from the field for the drip‐fertigated treatments ranged between 101 and 118kg and 116 and 188 N/ha for 2001 and 2002, respectively. The N removal ranged between 94 and 113 and 111 and 144 kg N/ha for the furrow‐irrigated treatments for 2001 and 2002, respectively.     

The Nutritive Value and Yield of Alfalfa Cultivated on Sulphur Postmining Lands

The study was carried out on the reclaimed lands of a bore-hole sulphur mine. The cropping of two succeeding cuts of alfalfa (Medicago sativa L.) was determined and its chemical composition was analyzed. Alfalfa was cultivated on waste lime (flotation tailings), enriched with a humus layer. The levels of basic nutrients, total S, total F, Ca, P, Mg, K, Na, Fe and Mn were determined in alfalfa. The biomass of an average crop was 6830 kg  ha^–1 in the first cut and 14300 kg  ha^–1 in the second one. The yields of dry matter as well as of crude and true proteins were positively correlated with the phosphorus level in the dry matter of alfalfa (P < 0.01). The level of total sulphur was positively linearly correlated with the phosphorus content (P < 0.01). No harmful accumulation of sulphur or fluoride was observed. A deficiency of phosphorus in alfalfa and an abnormal Ca:P weight ratio was found. The S total level was positively correlated with N total concentration. (P < 0.01). The percentage of true protein in crude protein was negatively correlated with total sulphur (P < 0.01). The level of nonprotein nitrogen compounds was positively correlated with S total level (P < 0.01).     

铜对土壤酶和碱解氮及甘蔗生长影响

【目的】研究土壤Cu浓度对土壤性状动态变化规律及甘蔗生长的影响,为农产品安全生产和重金属污染治理提供依据。【方法】以甘蔗为试验材料,采用盆栽法,设置不同土壤Cu浓度处理（44.15、61.65、79.15、86.65、94.15、269.15、444.15mg/kg）,在甘蔗不同生长期采样分析土壤性状及蔗株的生长情况。【结果】土壤脲酶随Cu浓度的增加（44.15-444.15mg/kg）呈先增加后降低的趋势,当Cu浓度为86.65或94.15mg/kg时达最大值;甘蔗各生长期土壤碱解N随土壤Cu浓度的增加呈先增加后降低的趋势;土壤脲酶活性与Cu浓度呈负效应,其中分蘖期和伸长期达到极显著和显著负相关;土壤碱解N与Cu浓度呈正、负效应,其中分蘖期和伸长期呈显著正相关;甘蔗株高、茎径、产量、蔗汁锤度随土壤Cu浓度的增加先增加后降低,甘蔗Cu受害临界值为土壤全Cu269.15mg/kg或蔗茎Cu7.82mg/kg。【结论】适宜的土壤Cu浓度可提高土壤脲酶活性、碱解N含量及甘蔗产量、品质;土壤脲酶活性与Cu浓度呈负效应,土壤碱解N与Cu浓度呈正、负效应。     

Comparison of uptake of different N forms by soil microorganisms and two wet-grassland plants: A pot study

Two common plant species of temperate wet grasslands, Carex acuta and Glyceria maxima, were tested for their preferences in the uptake of different nitrogen (N) sources (amino acid, ammonium, nitrate) and their ability to compete for these sources with soil microorganisms. The experiment was a one-day incubation study with plants growing in soil obtained from the field, which was supplied with a solution containing the three N sources, one at a time labeled with ¹⁵N. The bulk of the N demand of both species was covered by nitrate-N, which was the dominant N form in the soil at the time of the experiment. Ammonium-N was taken up less strongly, and organic N formed only a negligible part of their nutrition. The assimilated inorganic N was preferentially transported to apical meristem of the youngest leaf, while organic N remained mostly in the roots. The fast-growing Glyceria took up more N and was a better competitor vis-à-vis soil microbes for rarer N forms than Carex. However, both plants were poor competitors for N vis-à-vis soil microbes, irrespective of the N form. Microbes took up nitrate ca. five times faster and organic N more than a hundred times faster than plants. Correspondingly, the calculated turnover time of microbial N was 17 days, compared to 40 days for N in plant roots. A significant amount of added ¹⁵N was found at non-exchangeable sites in the soil, which points to the importance of microbial N transformation and abiotic N fixation for N retention in soil. In summary, the preferential assimilation of inorganic N by the wetland plants studied here and their poor ability to compete for N with soil microbes over the short term agree with the results of studies carried out with other species from temperate grasslands.