The influence of different forms and concentrations of nitrogen on total nonstructural carbohydrate allocation and growth in Digitaria eriantha

Abstract

Digitaria eriantha plants were grown under controlled conditions for a period of three months, during which time they were supplied with the following forms and concentrations of nitrogen: 50 mg/1 NO₃ ^?‐N, 200 mg/1 NO₃ ^?‐N, 200 mg/1 NH₄ ⁺‐N and a combined form containing both NO₃ ^?‐N and NH₄ ⁺‐N with a nitrogen concentration of 200 mg/1. Control plants received no nitrogen.

At monthly intervals both above and below ground components were assayed for soluble and insoluble carbohydrate contents. Dry mass and leaf areas were also measured.

The nitrogen treatments were found to influence the allocation of photosynthates into either soluble or insoluble carbohydrates. In above ground tissue, the soluble carbohydrate component decreased with time, while the insoluble component increased with time. In root tissue the reverse trends were observed. Both dry mass and leaf area development were enhanced in plants supplied with nitrogen in any form. It was suggested that growth of D. eriantha was influenced by carbohydrate fluctuations.     

Monitoring in a complex world — seeking slow variables,a scaled focus,and speedier learning

The nutritive value of four subtropical grasses (Panicum maximum, Anthephora pubescens, Digitaria eriantha and Chloris gayana) standing hay were compared in terms of qualitative intake and partial digestibility by sheep. The species differed significantly in terms of diet quality selected by sheep grazing the standing hay. The rumen ammonia nitrogen (NH₃-N), total volatile fatty acid and propionic acid concentrations of sheep grazing P. maximum and A. pubescens were higher than those sheep grazing D. eriantha and C. gayana standing hay. Organic matter intake (OMI) (g kg^?1 W^0.75 d^?1), nitrogen intake (g d^?1), digesta flow, the total N flow, NH₃-N flow, non-ammonia nitrogen (NAN) flow and NAN disappearance (g d^?1) in the ileum were higher for sheep grazing P. maximum than for those grazing the other standing hays. The organic matter disappearance in the stomach and small intestine of sheep grazing P. maximum and D. eriantha standing hay was higher than for those sheep grazing either A. pubescens or C. gayana standing hay. The NAN flow/N intake were the highest for sheep grazing P. maximum and A. pubescens compared to C. gayana. The NAN digestibility was, however, not significantly different among the four species. The standing hays (except for C. gayana) seemed to have the capacity to meet the N requirement of the sheep for production, but the OMI (g kg^?1 W^0.75 d^?1) was not sufficient to support maintenance requirement of the sheep.     

The influence of different forms and concentrations of nitrogen on the growth and metabolism of digitaria eriantha and chloris Gayana grown under saline conditions

Abstract

Chloris gayana and Digitaria eriantha plants were watered with nutrient media containing a high concentration of sodium chloride (150 mM) and either high (200 mg/l) or low (25 mg/l) concentrations of nitrate nitrogen and ammonium nitrogen. Dry mass and leaf area production as well as the total reduced nitrogen content of the above ground components were promoted when higher levels of nitrogen, particularly the nitrate form, were applied. As expected the halophytic grass Chloris gayana was able to produce higher levels of dry matter when it was grown in saline conditions compared to Digitaria eriantha under equally saline conditions.     

高寒灌丛土壤温室气体释放对添加不同形态氮素的响应

为探索不同形态氮素输入对青藏高原高寒灌丛土壤CO₂、N₂O和CH₄排放的影响,采集青藏高原东部金露梅高寒灌丛土壤,设置1个对照(CK)和3个添加不同形态氮素的处理(NH₄Cl,NH₄NO₃,KNO₃),在实验室恒温15℃下进行培养,分析了土壤CO₂、N₂O和CH₄的释放量以及土壤NH₄⁺,NO₃^-和可溶性有机碳(DOC)含量。结果表明:1)所有氮素处理抑制了高寒灌丛土壤CO₂的排放,土壤CO₂排放量与DOC浓度呈显著正相关关系;2)所有氮素处理显著增加了土壤N₂O的排放,而且以添加NO₃^--N增加的N₂O最为显著;3)高寒灌丛土壤N₂O的产生过程以反硝化作用为主;4)添加不同形态氮素对高寒灌丛土壤CH₄吸收没有显著影响。5)不同形态氮素施入后,高寒灌丛土壤温室气体全球增温潜能(GWP)顺序:KNO₃>NH₄NO₃>NH₄Cl>CK。     

氮对千日红试管苗生长和开花诱导的影响

本文以千日红组培苗为试验材料,研究培养基中氮形态及含量对千日红试管苗生长和开花诱导的影响。结果表明,1)相对于铵态氮(NH₄⁺),硝态氮(No₃^-)作为唯一氮源更有利于千日红试管苗生长和开花诱导,但千日红在NH₄⁺和NO₃^-同时存在的培养基中表现最佳。2)在20 mmol/LNH₄⁺(NO₃^-)和5 mg/L PP₃₃₃存在的条件下,试管苗生长基本随着培养基中NO₃^-(NH₄⁺)含量的增加而增加,并在含40 mmol/L NO₃^-+20 mmol/L NH₄⁺(即MS培养基中氮含量)的培养基中株高达到最大值5.91 cm;而叶片数和开花率则随着培养基中NH₄⁺和NO₃^-含量的增加呈现先增加后下降的趋势,并在20 mmol/L NO₃^-+5 mmol/LNH₄⁺培养基中达到最大值,分别为10.7片/株和38.89%。3)氮含量及形态配比结果表明,千日红试管苗开花率在培养基中氮总量为5 mmol/L、NO₃^-/NH₄⁺为4/1时达到最大值39.95%,而株高和叶片数在氮总量为35 mmol/L,NO₃^-/NH₄⁺为4/1时达到最大值8.52 cm和13.38片/株。千日红试管苗开花率与培养基中NO₃^-/NH₄⁺显著正相关,而与氮总量及株高之间显著负相关。此外,培养基中氮含量及形态配比还显著影响无菌苗根系生长。     

Mitigation of nitrous oxide (N2O) emission from swine wastewater treatment in an aerobic bioreactor packed with carbon fibers

Mitigation of nitrous oxide (N₂O) emission from swine wastewater treatment was demonstrated in an aerobic bioreactor packed with carbon fibers (CF reactor). The CF reactor had a demonstrated advantage in mitigating N₂O emission and avoiding NOx (NO₃ + NO₂) accumulation. The N₂O emission factor was 0.0003 g N₂O‐N/gTN‐load in the CF bioreactor compared to 0.03 gN₂O‐N/gTN‐load in an activated sludge reactor (AS reactor). N₂O and CH₄ emissions from the CF reactor were 42 g‐CO₂ eq/m³/day, while those from the AS reactor were 725 g‐CO₂ eq/m³/day. The dissolved inorganic nitrogen (DIN) in the CF reactor removed an average of 156 mg/L of the NH₄‐N, and accumulated an average of 14 mg/L of the NO₃‐N. In contrast, the DIN in the AS reactor removed an average 144 mg/L of the NH₄‐N and accumulated an average 183 mg/L of the NO₃‐N. NO₂‐N was almost undetectable in both reactors.     

Precipitation and Nitrogen Deposition Alter Litter Decomposition Dynamics in Semiarid Temperate Steppe in Inner Mongolia,China

Plant litter decomposition is one of the most important links connecting plants to the soil through the carbon (C) and nitrogen (N) cycles. Climate change scenarios predict changes in precipitation and N deposition, and previous studies have demonstrated that increases in the availability of water and N affect the litter decomposition rate and nutrient release. We studied the effects of increased N deposition and precipitation on changes in the remaining mass and the C and N contents of shoot litter after decomposition in a typical steppe in Inner Mongolia, China. The treatments included the addition of NH₄NO₃ at rates equivalent to 0, 25, 50, and 100 kg ? N ? ha^? 2yr^? 1 with and without added water. The addition of water proved to be a more effective practice than amendment with NH₄NO₃ for improving the litter decomposition rate; the addition of water significantly increased the rate of litter decomposition (P < 0.001), whereas the addition of N alone had no apparent effect on litter mass loss. However, a repeated measures analysis of variance (ANOVA) showed that the interaction of water and N significantly affected both mass loss and litter N content (P < 0.05), and a linear relationship was identified between litter mass loss and litter decomposition time (P < 0.001). No correlation was found between litter mass loss and organic C content, but a significant positive correlation was found between residual litter mass and N content (P < 0.01). Although the study was conducted over a relatively short period, our results indicate that increased precipitation could potentially promote litter decomposition, whereas increased N input has little effect. The effects of time on litter mass loss and residual C and N concentrations indicate the need for long-term trials that measure the complete process of litter decomposition and the peaks of C and N release.     

Investigation into the durability of washed rice straw for equine bedding and the repetitive use of washing water

The present experiment investigated durability during the repetitive use of washed rice straw, as bedding material, and washing water as a model study. Residual nitrogen levels, elasticity, and water suction rates for washed rice straw‐adhered urea were measured. In addition, outflow levels of nitrogen and mineral ions (Na⁺, NO₂^‐ + NO₃^‐, SO₄^2?, PO₄^3?, Cl^‐) for washing water were measured to determine durability. Nitrogen levels of rice straw significantly (P < 0.05) decreased after two washings. There was no significant change in elasticity of repetitively used rice straw. Suction rates of rice straw after the second and third washings increased significantly (P < 0.05) compared to the first time. With regard to the number of washings, the mineral ion outflow level in the washing water for nitrogen, Na⁺, NO₂^‐ + NO₃^‐ and PO₄^3? after each washing was not significant. However, nitrogen outflow level tended to decrease after the third washing. SO₄^‐ and Cl^‐ did significantly decrease (P < 0.05) with the number of washings. In this study, it was considered that rice straw and washing water could be used repetitively three times. Furthermore, in order to maintain effluent standards, washing water from the first washing needs to be processed in a septic tank.     

南高丛蓝莓基质栽培营养液氮素配方筛选研究

为了筛选适宜的营养液氮素配方,本研究以南高丛蓝莓品系‘H5’为试验试材,设置不同的氮素用量与不同形态氮素比例处理,检测蓝莓植株叶片、根系生理指标及植株生长量。结果表明：叶片脯氨酸含量、丙二醛含量及根系总呼吸速率变化趋势类似,随施氮量的增加而增加。施氮量为500 mg/株和1000 mg/株时,叶绿素含量显著高于对照,分别较对照提高72.24%和46.82%。施氮量为150 mg/株时,根系活力与植株生长指标最佳。当NH4+：NO3-为5:1时,叶片丙二醛含量显著低于对照,根系活力和根系总呼吸速率显著高于对照,呼吸途径由糖酵解途径向三羧酸循环途径转化,植株生长状态良好。综上,初步筛选出蓝莓营养液中最佳施氮方案为氮肥用量为150 mg/株,NH4+：NO3-为5:1。     

Effect of aeration in reducing phytotoxicity in anaerobic digestion liquor of swine manure

Numerous reports have accumulated concerning the quality of solid compost. In contrast, there are few for the residue of anaerobic digestion. In this study, the fertilizer value of anaerobic digestion liquor (ADL) was evaluated, and the effect of aeration on the reduction of the phytotoxicity was examined by a germination assay. Low or high aeration (100 or 400 mL/min) was added to 3 L of ADL obtained from a mixture of pig manure and garbage by using 5‐L jar fermenters under a controlled temperature of 30°C. During the 14‐day aeration period, a high aeration rate improved the germination index (GI) score from 5.7% to nearly 80%, while a low aeration rate did not. Although organic matter decomposition, determined as chemical oxygen demand, did not differ with aeration intensity, remarkable differences were observed in the time course of changes in pH, electric conductivity and ammonium‐nitrogen (NH₄‐N) and total nitrogen (T‐N) content. Among these parameters, the NH₄‐N concentration correlated highly with the GI score (r = 0.986). The primary phytotoxic element in ADL was considered to be NH₄‐N, and the stripping of ammonia (NH₃) by high aeration resulted in the improvement of the GI score. Although the ratio of major nutrients N : P₂O₅ : K₂O (1:0.41:0.94) in ADL was at nearly same level as conventional liquid fertilizer, special attention should be paid to the high concentration of NH₃ when drawing up a fertilization plan.     

Effect of increasing levels of wasted date palm on digestion,rumen fermentation and microbial protein synthesis in sheep

This study was conducted to evaluate the effects of increasing levels of wasted date (WD) in sheep (initial body weight 50 ± 2.3 kg) diets on apparent diet digestibility, rumen fermentation and microbial protein synthesis. The experimental diets contained 0 (0 WD), 9% (9 WD), 18% (18 WD) or 27% (27 WD) of wasted dates. These diets were evaluated through a 4 × 4 Latin square design with four 28‐day periods. Sheep were individually housed in metabolic cages and were fed diets ad libitum. To keep the diets isoenergetic and isonitrogenous, increasing partial replacement of WD for barley grain was used with increasing levels of soya bean meal. Increasing the amount of WD in diets of sheep did not influence (p > 0.05) diet intake and digestibility of nutrients. Inclusion of WD in diets of sheep did not affect (p > 0.05) ruminal pH but decreased (p < 0.05) NH₃‐N concentration and blood urea nitrogen. Also there was no effect (p > 0.05) of the WD provision on N intake and faecal N loss of experimental animals, but urinary nitrogen excretion and retained nitrogen were affected (p < 0.05) by dietary treatments. Purine derivatives and microbial protein synthesis increased (p < 0.05) linearly with the level of WD in the diet. In conclusion, the increase in microbial protein synthesis and concomitant reduction in ruminal NH₃‐N concentration and blood urea nitrogen in response to wasted date supply suggest improved efficiency of ruminal nitrogen metabolism without adverse effects on fermentation characteristics and animal performance.     

Suppression of Cheatgrass by Perennial Bunchgrasses

Long-term control of the invasive annual grass cheatgrass is predicated on its biological suppression. Perennial grasses vary in their suppressive ability. We compared the ability of a non-native grass (“Hycrest” crested wheatgrass) and two native grasses (Snake River wheatgrass and bluebunch wheatgrass) to suppress cheatgrass. In a greenhouse in separate tubs, 5 replicates of each perennial grass were established for 96 d, on which two seeds of cheatgrass, 15 cm apart, were then sown in a semicircular pattern at distances of 10 cm, 30 cm, and 80 cm from the established perennial bunchgrasses. Water was not limiting. After 60 d growth, cheatgrass plants were harvested, dried, weight recorded, and tissue C and N quantified. Soil N availability was quantified at each location where cheatgrass was sown, both before sowing and after harvest. Relative to cheatgrass grown at 80 cm, all perennial grasses significantly reduced aboveground biomass at 30 cm (68% average reduction) and at 10 cm (98% average reduction). Sown at 10 cm from established perennial grasses, cheatgrass aboveground biomass was inversely related with perennial grass root mass per unit volume of soil. All cheatgrass sown at 10 cm from “Hycrest” crested wheatgrass died within 38 d. Before sowing of cheatgrass, soil 10 cm from established perennial grasses had significantly less mineral N than soil taken at 30 cm and 80 cm. Relative to cheatgrass tissue N for plants grown at 80 cm, cheatgrass nearest to the established perennial grasses contained significantly less tissue N. All perennial grasses inhibited the NO₂⁻ to NO₃⁻ nitrification step; for “Hycrest” crested wheatgrass, soil taken at 10 cm from the plant had a molar proportion of NO₂⁻ in the NO₂⁻ + NO₃⁻ pool of > 90%. In summary, a combination of reduced nitrogen availability, occupation of soil space by perennial roots, and attenuation of the nitrogen cycle all contributed to suppression of cheatgrass.     

Research note: Level of nitrogen fertilization and the dry matter yield of Digitaria eriantha cv. Irene in the Transvaal middleveld

Abstract

N fertilizer was applied as a single dressing in spring at 0, 20, 40, 80, 160 and 320 kg N ha^‐1 a^‐1 to an established Digitaria eriantha pasture, previously used as a hay crop. The only significant increase in dry matter (DM) yield was obtained with 80 kg ha^‐1 a^‐1. The DM production per unit of nitrogen (N) applied also reached a maximum with 80 kg N ha^‐1 a^‐1. The distribution of rainfall also influenced DM yield.     

The effect of form and level of nitrogen fertlization on the yield of Digitaria eriantha Steud*

Abstract

On dryland Digitaria eriantha ammonium sulphate and limestone ammonium nitrate were superior to potassium nitrate and urea. With reference to the level of nitrogen fertilization it was found that levels in excess of 300 kg N/ha, and up to 400 kg N/ha, could be economically justified, even on a pasture with a high basal level of fertility.     

The influence of nitrogen and defoliation on production and water‐use efficiency of Lolium multiflorum cv. Midmar

Abstract

The objective of this study was to investigate the influence of different nitrogen fertiliser application levels in combination with different defoliation intervals on the dry matter (DM) production and water‐use efficiency of ryegrass (Lolium multiflorum,) cv. Midmar. In a field trial, four nitrogen levels (0, 150, 300 and 450 kg N ha^?1) were combined with five defoliation intervals (every 2, 4, 6 and 8 weeks and twice a season). Soil moisture levels were measured with a neutron hydroprobe and were used to schedule irrigation. The dry matter production, nitrogen‐use efficiency (NUE), plant DM content and water‐use efficiency were influenced (P<0.01) by nitrogen level, defoliation interval, and the interaction between these factors. Total DM production varied from 64 to 20 922 kg DM ha^?1. Dry matter production per unit of applied N decreased with an increase in N level within a defoliation interval. The plant DM content varied from 14.0% to 35.6%. The plant DM content decreased (P<0.05) with increasing N applications, while a lengthening of the defoliation interval resulted in an increase (P<0.05) in the DM content. No difference (P>0.05) was found in total water used when plants received N. Water‐use efficiency varied from 1.2 to 25.8 kg DM ha^?1 mm^?1 water received.     

Effects of feeding mother liquor,by‐product of monosodium glutamate,on digestibility,energy and nitrogen balances,and rumen condition in Thai native bulls

Four Thai native bulls were used to evaluate the availability of mother liquor (ML), by‐product of monosodium glutamate, as a replacement of soybean meal (SBM) consisting of 10% in concentrate. The SBM was replaced by the ML at 0% (C), 20% (T1), 40% (T2), and 60% (T3), and the experiment was a randomized block design experiment. The animals were fed concentrate and roughage (60:40, on a dry matter [DM] basis). There were no significant differences in the digestibility of DM, crude protein, ether extract, acid detergent fiber expressed exclusive of residual ash and non‐fibrous carbohydrate, and energy and nitrogen balances among the treatments. However, the digestibility of the neutral detergent fiber in T2 was lower than the other treatments (p < .05). The valeric acid of T2 was lower than those of C and T1 and the iso‐valeric acid of T3 was the lowest (p < .05), followed by those of T2, T1, and C at 4 hr post‐feeding. No significant differences were observed in the ruminal total VFA concentrations, pH, and NH₃‐N among the treatments. These results suggested that SBM could be replaced by the ML up to 60% without adverse effects on nitrogen and energy balance, rumen conditions, and blood metabolites in Thai native bulls.     

Nitrogen maintenance requirements and potential for nitrogen retention of pullets in growth phase

Experiments were conducted to estimate daily N maintenance requirements (NMRs) and the genetic potential for daily N retention (NR_maxT) of pullets in growth phase. Three nitrogen balance trials were conducted, and a total of 48 Hy‐line W‐36 pullets were used in each trial in age periods (starter: 14–28, grower: 56–70 and developer: 98–112 days). The treatments consisted of six graded levels of nitrogen in the diets (L1 = 8, L2 = 16, L3 = 24, L4 = 32, L5 = 40 and L6 = 48 g N/kg of feed), formulated using the dilution technique. The regression analyses between nitrogen intake and nitrogen excretion were performed to fit the exponential function and to determine the NMR. The daily NMRs that were estimated at 294, 331 and 355 mg/BW_kg^0.67 for the initial, grower and developer periods, respectively, were applied for further calculation of NR_maxT as the threshold value of the function between N intake and daily N balance. The NR_maxT was estimated by a statistical procedure following several iteration steps by the Levenberg–Marquardt algorithm until the sum of the squares of the residual was minimized. The NR_maxT was estimated at 3,200, 2,633 and 1,826 mg/BW_kg^0.67 for starter, grower and developer periods respectively. The determined model parameters were the precondition for modelling of the amino acid requirement based on an exponential N‐utilization model and depended on performance and dietary amino acid efficiency. This procedure will be further developed and applied in the subsequent study.     

Mineral Nitrogen in a Crested Wheatgrass Stand: Implications for Suppression of Cheatgrass

Cheatgrass (Bromus tectorum L.) is an exotic annual grass causing ecosystem degradation in western US rangelands. We investigated potential mechanisms by which crested wheatgrass (Agropyron cristatum L. Gaertn., Agropyron desertorum &lsqb;Fisch. {Ex Link} Scult.]) suppresses the growth and invasibility of cheatgrass. Research focused on monthly mineral soil N availability and the proportional concentration of NH₄⁺-N in a crested wheatgrass community by microsite (crested wheatgrass, unvegetated interspace, shrub subcanopy) and soil depth (0–15, 15–30 cm) over a 1-yr period. Mineral soil N in crested wheatgrass microsites ranged from 0.24 to 1.66 mmol · kg^-1 and was not appreciably lower than the other microsites or other ecosystems we have measured in the Great Basin. The molar proportion of NH₄⁺-N in the mineral N pool of crested wheatgrass averaged over 85% for the year and is significantly higher than the other microsites and far greater than other plant communities we have measured in the Great Basin. We conclude that crested wheatgrass does not suppress cheatgrass by controlling mineral N below a threshold level; rather, we hypothesize that it may limit nitrification and thereby reduce NO₃^--N availability to the nitrophile cheatgrass.     

The effect of iron on the growth of Escherichia coli in albumen taken from the hen's egg

Small inocula of Escherichia coli did not initiate either growth or glucose utilisation in hen's egg white in vitro unless ovotransferrin was quenched with iron. The most rapid and extensive growth occurred in iron‐supplemented albumen containing additional ammonium ions. In albumen containing a large inoculum, glucose utilisation was promoted by the addition of NH₄+ but not Fe³⁺. The action of NH₄+ was suppressed by the addition of chloramphenicol to heavily seeded albumen.     

Comparison of two live Bacillus species as feed additives for improving in vitro fermentation of cereal straws

This study was performed in a 2 × 4 factorial arrangement to explore and compare the effects of inclusion of two live Bacillus additives (B. licheniformis and B. subtilis) at four doses (0, 0.25 × 10⁷, 0.50 × 10⁷ and 0.75 × 10⁷ colony‐forming units (cfu)) on in vitro gas production kinetics, fiber degradation, methane production and ruminal fermentation characteristics of maize stover and rice straw by mixed rumen microorganisms in dairy cows. The pH, concentrations of ammonia nitrogen (NH₃‐N) and isovalerate were increased (P < 0.05), while the methane (CH₄) production, ratio of acetate to propionate, and total volatile fatty acids (TVFA) concentration were decreased (P < 0.05) by the supplementation of B. licheniformis compared with that of B. subtilis. Adding B. licheniformis and B. subtilis raised (P < 0.05) or numerically raised the maximum gas production, while decreasing (P < 0.05) or numerically lowering pH and concentrations of most volatile fatty acids. The addition of B. licheniformis increased (P < 0.05) the NH₃‐N concentration but reduced CH₄ production and ratio of acetate to propionate (P < 0.05), while the NH₃‐N concentration was decreased (P < 0.05), and the CH₄ production and ratio of acetate to propionate were increased by that of B. subtilis compared to the control. Results obtained in this research suggest that B. licheniformis would be preferred as a live Bacillus additive in comparison with B. subtilis, and its optimal dose should be 0.25 × 10⁷ cfu/500 mg substrates.