Neonatal growth and survival of rodents in response to variation in maternal dietary nitrogen: life history strategy vs dietary niche

Nitrogen (N) enrichment of terrestrial ecosystems dramatically changes ecosystem diversity and structure of plant communities. Research designed to elucidate effects of nitrogen addition on mammalian assemblages is rare. We investigated nitrogen requirements of hispid cotton rats ( Sigmodon hispidus ) and fulvous harvest mice ( Reithrodontomys fulvescens ), small mammals native to the tallgrass prairie of the southern Great Plains, USA, to better understand population responses of these species to nitrogen enrichment. We studied reproductive requirements by measuring growth of offspring under varying levels of dietary nitrogen. We predicted that dietary niche would dictate nitrogen requirements, such that the larger herbivore ( S. hispidus ) would have a lower dietary need for nitrogen per unit mass than the small omnivore/granivore ( R. fulvescens ). Reproductive output (measured as mass gain of litters and offspring) was responsive to varying nitrogen in cotton rats but not in harvest mice. Nitrogen intake that supported 50% survival of juvenile harvest mice (1.34% dietary nitrogen) also was adequate for maximum growth (1.29%). Cotton rats potentially drew on maternal nutrient stores to support litter growth at low levels of dietary nitrogen (as low as 1.08%). Overall, nitrogen requirements for maximum reproduction were greater (2.31% dietary nitrogen) for cotton rats. We conclude that life history characteristics and body size constraints rather than dietary niche explain the differential species response to variation in dietary nitrogen. Our results imply that nitrogen enrichment in old-field succession in the southern Great Plains may lead to dominance by cotton rats and a reduction in diversity of the small-mammal assemblage. Consumers with similar abilities to take advantage of increased environmental nitrogen may likewise dominate other ecosystems.     

Some priority research areas in nitrogen studies

The more efficient management of the world's nitrogen resources, leading to greater plant productivity, depends on research which (a) improves the economic efficiency of nitrogen inputs into ecosystems, (b) makes more effective use of the nitrogen within the plant environment, and (c) reduces nitrogen losses, particularly from the root region. Ecosystem nitrogen budget studies can emphasize gaps in knowledge of nitrogen cycle processes.     

重庆典型地区大气湿沉降氮的时空变化

验连续3a采集雨样研究了重庆市郊区和林区大气湿沉降氮的时空变化.结果表明,重庆市近郊区、远郊区和林区3个采样点雨水总氮浓度范围为(3.94±0.50)～(4.56±1.01)mg L-1,平均(4.27±0.73)mg L-1.NH+4-N、NO-3-N和DON占TN百分比例分别为44.9%、27.4%和27.5%.降雨中NH+4-N对氮沉降量的贡献率最大.在时间尺度上,不同季节降雨中氮浓度呈现明显的季节性差异,以冬季最高,依次是夏季、春季和秋季.在空间分布上,近郊区、远郊区和林区的TN平均浓度分别为4.56 mg L-1、4.32 mg L-1和3.94 mg L-1,从近郊区到林区有逐渐降低的趋势.降雨中的NH+4-N、NO-3-N、DON和TN浓度与降雨量无显著相关性.但是,降雨量与氮沉降量呈显著正相关.大气氮湿沉降时空差异与降雨量和氮排放直接相关.重庆市随降雨到达地面的氮沉降量较高,远远超过了水体负荷的临界值,可能对三峡库区的水资源产生不利影响.     

Nitrogen dynamics in the intact grasses Poa trivialis and Panicum maximum receiving contrasting supplies of nitrogen

The C(3) grass Poa trivialis and the C(4) grass Panicum maximum were grown in sand culture and received a complete nutrient solution with nitrogen supplied as 1.5 mol m(-3) NH(4)NO(3). (15)N tracer techniques were used to quantify the relative use of root uptake and mobilization in supplying nitrogen to growing leaves in intact plants which either continued to receive nitrogen or which received the complete nutrient solution without nitrogen. The allocation of both (15)N-labelled nitrogen uptake and unlabelled mobilized nitrogen indicated that, under their conditions of growth, the sink strength of growing leaves was relatively greater in P. maximum than P. trivialis. The supply of nitrogen by mobilization to side tillers of P. trivialis was completely stopped as the external nitrogen supply was reduced, whilst in P. maximum some allocation of mobilized nitrogen to side tillers, roots and growing leaves was maintained. In both plant species receiving an uninterrupted supply of nitrogen the allocation pattern of mobilized nitrogen differed from that of nitrogen derived from root uptake. Differences exist in the degree to which P. trivialis and P. maximum utilized uptake and mobilization to supply nitrogen to the growing leaves. In P. trivialis roots were always a net sink of mobilized nitrogen, irrespective of the external nitrogen supply. In P. maximum, roots were a net sink of mobilized nitrogen when external nitrogen was withdrawn, but exhibited both source and sink behaviour when nitrogen supply was continued.     

不同有机氮效率的甜菜基因型筛选及差异分析

通过对不同基因型甜菜土壤有机氮利用及吸收效率的筛选和差异分析,为土壤有机氮高效基因型甜菜的栽培及品种选育提供理论依据。2014-2015年选取100份不同基因型的甜菜材料通过室内及田间试验在甜菜的不同发育阶段比较并分析土壤有机氮效率,筛选出对有机氮利用及吸收效率均显著差异的高效和低效基因型甜菜材料。结果表明,初步筛选得到的有机氮高效基因型甜菜材料KWS8138、HI0466和有机氮低效基因型甜菜材料BETA176、T230苗期全株及根部有机氮利用效率（Organic Nitrogen Use Efficiency,ONUE）差异显著;之后通过田间试验对有机氮吸收效率（Organic Nitrogen Assimilation Efficiency,ONAE）做了进一步筛选,发现KWS8138不但对ONUE有显著优势,还具有较高的有机氮素吸收能力,包括苗期之后对土壤有机氮素的运转量较高,合理的根冠比等。有机氮低效基因型甜菜材料BETA176的有机氮素吸收利用能力很弱、氮素转运能力过低等限制了植株对有机氮素的合理利用,不利于有机氮效率的提高。因此确定KWS8138为有机氮高效基因型材料,BETA176为有机氮低效基因型材料,均可作为进一步试验的材料。有机氮高效基因型甜菜较高的土壤有机氮转运量及合理的根冠比促进了其对有机氮素的吸收,是有机氮高效的基础。较高的干物质生产效率反应了甜菜对有机氮素的高效利用,是有机氮高效的关键。     

植物对有机氮源的利用及其在自然生态系统中的意义

近来大量实验研究表明,许多植物能够在不经矿化的情况下直接吸收、利用环境介质中的生物有机氮,尤其氨基酸类。而且,有些植物利用氨基酸的效率可以与矿质氮源(NH4 、NO3)相当或更高。自然界植物赖以生存的土壤生境中同时存在多种有机氮和矿质氮养分,这是导致植物(至少部分植物)进化产生利用各种不同氮源能力的环境驱动力。土壤中的游离氨基酸尽管含量不高,但其周转快、通量大,理论上可远大于植物的氮需求。尽管植物在与土壤微生物的有机氮源竞争中处于根本性劣势,但土壤中氨基酸的巨大潜在通量和植物相对于微生物的生命周期仍可使植物在长期竞争中获取数量可观的氮。基于植物根对氨基酸的吸收能力、土壤中游离氨基酸库的大小和通量、植物与土壤微生物对氨基酸氮源的竞争以及有关的原位实验结果,近来许多研究者都认为植物有机氮营养在多种生态系统中是重要或潜在重要的。尤其是在一些极地、高山、亚高山、北方针叶林或泰加林生态系统中,由于低温等因素限制有机氮矿化,土壤氨基酸浓度常超过矿质氮(NH4 、NO3-)浓度,氨基酸可能代表着植物的一个主要氮源。认识到现实生态系统中植物对有机氮源利用的重要性意味着传统的矿质营养观念的更新,这将在很大程度上改变人们对某些重要生态过程的理解,并导致对若干生态学中心问题的再认识。研究以森林生态系统为例,阐述了我国开展该领域研究的科学意义和基本框架。     

QTL and QTL x environment effects on agronomic and nitrogen acquisition traits in rice

Agricultural environments deteriorate due to excess nitrogen application.Breeding for low nitrogen responsive genotypes can reduce soil nitrogen input.Rice genotypes respond variably to soil available nitrogen.The present study attempted quantification of genotype x nitrogen level interaction and mapping of quantitative trait loci (QTLs) associated with nitrogen use efficiency (NUE) and other associated agronomic traits.Twelve parameters were observed across a set of 82 double haploid (DH) lines derived from IR64/Azucena.Three nitrogen regimes namely,native (0 kg/ha; no nitrogen applied),optimum (100 kg/ha) and high (200 kg/ha) replicated thrice were the environments.The parents and DH lines were significantly varying for all traits under different nitrogen regimes.All traits except plant height recorded significant genotype x environment interaction.Individual plant yield was positively correlated with nitrogen use efficiency and nitrogen uptake.Sixteen QTLs were detected by composite interval mapping.Eleven QTLs showed significant QTL x environment interactions.On chromosome 3,seven QTLs were detected associated with nitrogen use,plant yield and associated traits.A QTL region between markers RZ678,RZ574 and RZ284 was associated with nitrogen use and yield.This chromosomal region was enriched with expressed gene sequences of known key nitrogen assimilation genes.     

川西亚高山不同海拔森林土壤活性氮库及净氮矿化的季节动态

研究了川西理县毕棚沟不同海拔梯度(3600 m、3300 m和3000 m)森林群落土壤活性氮库及土壤净氮矿化速率的季节动态.结果表明: 研究区森林土壤活性氮库(铵态氮、硝态氮、微生物生物量氮和可溶性有机氮)及净氮矿化速率存在明显的季节变化,但不同形态土壤活性氮库的季节动态有一定差异.4个采样时期(非生长季与生长季初期、中期及末期)各海拔土壤硝态氮浓度(8.38～89.60 mg·kg^-1)均显著高于铵态氮浓度(0.44～8.43 mg·kg^-1).生长季初期各海拔梯度的土壤净氮矿化速率均表现为负值(-0.77～-0.56 mg·kg^-1·d^-1),而非生长季、生长季中期和末期均为正值.除硝态氮外,不同海拔的土壤铵态氮、微生物生物量氮和可溶性有机氮浓度的差异极显著,海拔对它们的影响与季节变化有关.该区土壤净氮矿化以硝化为主,且氮矿化过程不受海拔梯度的影响.冬季土壤净氮矿化明显(0.42～099 mg·kg^-1·d^-1),早春高的土壤无机氮可能为植物生长提供基础养分,也可能通过淋溶方式从系统中丢失.     

贵州草海岩溶湿地水体不同形态氮的时空分布特征

为揭示贵州草海岩溶湿地水体中不同形态氮时空分布特征及其变化规律,通过网格布点法采集了该湿地丰、枯水期表层水,并对其不同形态溶解性氮含量进行了测定,运用ArcGIS统计模块分析了草海不同形态氮的时空分布特征,并分析了各形态氮与环境因子之间的相关性.结果表明:草海水体丰、枯水期TN的平均含量分别为(0.96±0.52)、(...     

不同频率氮添加对内蒙古典型草原植物叶绿素的影响

大气氮沉降会影响植物功能性状的变异和进化,进而作用于植物个体和生态系统功能。研究草地生态系统植物功能性状在不同氮添加模式下的响应差异,对更准确地评估植物对环境变化的适应性至关重要。基于内蒙古草原野外长期氮沉降模拟实验平台,研究氮添加频率对优势物种羊草和冰草叶绿素含量的影响,结果表明每年一次氮添加使羊草叶绿素含量增加最多(15.21%),而每月一次氮添加对冰草叶绿素含量影响最大(增加了14.74%)。氮添加尤其是每年一次氮添加显著增加了土壤铵态氮、硝态氮和无机氮含量,并使土壤pH显著降低。这些结果表明:羊草叶绿素含量对低频率氮添加响应更明显,而高频率氮添加对冰草叶绿素含量的影响更显著,这两类物种间养分吸收策略存在明显差异。启示低频率氮添加可能高估了氮沉降对羊草叶绿素含量的影响,而低估了对冰草叶绿素含量的影响,这对准确预测植物叶片功能性状对大气氮沉降的变异具有重要意义,并将有助于应用到植物功能性状预测生态系统功能和过程响应未来全球变化的模型中。     

Variation in foliar nitrogen and albedo in response to nitrogen fertilization and elevated CO2

Foliar nitrogen has been shown to be positively correlated with midsummer canopy albedo and canopy near infrared (NIR) reflectance over a broad range of plant functional types (e.g., forests, grasslands, and agricultural lands). To date, the mechanism(s) driving the nitrogen–albedo relationship have not been established, and it is unknown whether factors affecting nitrogen availability will also influence albedo. To address these questions, we examined variation in foliar nitrogen in relation to leaf spectral properties, leaf mass per unit area, and leaf water content for three deciduous species subjected to either nitrogen (Harvard Forest, MA, and Oak Ridge, TN) or CO(2) fertilization (Oak Ridge, TN). At Oak Ridge, we also obtained canopy reflectance data from the airborne visible/infrared imaging spectrometer (AVIRIS) to examine whether canopy-level spectral responses were consistent with leaf-level results. At the leaf level, results showed no differences in reflectance or transmittance between CO(2) or nitrogen treatments, despite significant changes in foliar nitrogen. Contrary to our expectations, there was a significant, but negative, relationship between foliar nitrogen and leaf albedo, a relationship that held for both full spectrum leaf albedo as well as leaf albedo in the NIR region alone. In contrast, remote sensing data indicated an increase in canopy NIR reflectance with nitrogen fertilization. Collectively, these results suggest that altered nitrogen availability can affect canopy albedo, albeit by mechanisms that involve canopy-level processes rather than changes in leaf-level reflectance.     

中国森林生态系统氮循环特征与生产力间的相互关系

为了更好地了解森林生态系统净初级生产力(NPP)与氮循环之间的关系,本文对中国主要森林生态系统类型中净初级生产力(NPP)、枯落物氮、植被年氮积累量和土壤氮矿化速率之间的关系进行了研究分析.结果表明,我国森林生态系统净初级生产力与枯落物氮、植被年氮积累量和土壤氮矿化速率之间均存在比较显著的相关关系.其中相关性最显著的是净初级生产力与氮矿化速率之间的相关关系(R₂=0.7,n=37),其次是净初级生产力与植被年氮积累量之间的相关关系(R₂=0.60,n=37).     

氮素减施对茶树光合作用和氮肥利用率的影响

为探讨当前茶园施肥水平下氮素减施对茶树的生长与氮肥利用率的影响,在大田条件下设置不施氮(空白对照CK),纯氮16 kg·667 m^-2(减氮55.6%,处理A)、纯氮26kg·667 m^-2(减氮27.8%,处理B)、纯氮36 kg·667 m^-2(常规施氮CF)4个施氮处理,研究氮素用量减施对茶树光合作用、产量、氮素吸收及其利用效率的影响。结果表明:与CF比较,处理B能提高茶树的叶绿素含量、净光合速率(Pn)、气孔导度(Gs)、蒸腾速率(Tr),降低胞间CO2浓度(Ci)和水分利用率(WUE);各施氮肥处理中以处理B的产量最高,氮肥农学效率最高,土壤养分剩余较少,氮素的利用效率较高;CF产量较处理B增加不显著,氮肥农学效率降低,土壤未利用养分较多。因此,减氮27.8%的施肥能保证与常规施肥的茶叶产量,氮素利用率明显提升,有利于茶业的可持续发展。     

森林土壤氮素转换及其对氮沉降的响应

近几十年人类活动向大气中排放的含氮化合物激增 ,并引起大气氮沉降也成比例增加。目前 ,氮沉降的增加使一些森林生态系统结构和功能发生改变 ,甚至衰退。近 2 0 a欧洲和北美有关氮沉降及其对森林生态系统的影响方面的研究较多 ,而我国少有涉及。森林土壤氮素转换是森林生态系统氮素循环的一个重要的组成部分 ,而矿化、硝化和反硝化作用是其核心过程 ,氮沉降作为驱动因子势必改变森林土壤氮素转换速度、方向和通量。根据国外近 2 0 a有关研究 ,首先介绍了森林土壤氮素转换过程和强度 ,论述森林土壤氮素在生态系统氮素循环中的作用 ,然后在此基础上 ,介绍了氮沉降对森林土壤氮素循环的研究途径 ,探讨了氮沉降对森林土壤氮素矿化、硝化和反硝化作用的影响及其机理     

Modelling the Seasonal Nitrogen Partitioning in Young Sycamore (Acer pseudoplatanus) Trees in Relation to Nitrogen Supply

A model of nitrogen partitioning during the seasonal growthof sycamore (Acer pseudoplatanus) seedlings was developed andtested against data from trees grown with two contrasting levelsof nitrogen supply. The model considered each tissue type (roots,trunk, stems and leaves) as sources and sinks for nitrogen andused flow equations to simulate the dynamics of nitrogen partitioningduring a growing season, with increases in tissue dry matteras driving force variables. Withdrawal of nitrogen from leavesduring senescence was allocated back to other tissues assuminga linear decrease in leaf mass. The model was fitted to data from trees grown in sand culturewith 6·0 molN m^-3 (high N) supplied with the irrigation.Model parameters thus determined were used to predict nitrogenpartitioning in trees grown with 1·0 molN m^-3 (low N)in the same year, and for trees from both treatments given eitherhigh or low N during a second year. The model accurately predictedthe nitrogen content of roots and leaves and gave small errorsin the amount of nitrogen partitioned to stems. In contrast,the nitrogen content of the trunks were over-estimated due toa failure to simulate the decreased in nitrogen content foundat the start of the growing season. The ability of the modelto simulate nitrogen partitioning by changes in tissue dry matterin trees of varying size and nitrogen status is discussed andpossible modifications to model partitioning of trunk nitrogenmore accurately suggested.Copyright 1993, 1999 Academic Press Modelling, nitrogen partitioning, ¹⁵N supply, Acer pseudoplatanus (sycamore), young seedlings     

开放式空气CO2浓度增高对水稻N素吸收利用的影响

在大田栽培条件下 ,研究空气中CO2 浓度增高 (FACE) 2 0 0 μmol·mol-1对水稻N素吸收及其利用效率的影响 .结果表明 ,FACE处理使水稻不同生育时期的植株含N率显著下降 ;由于干物质生产量显著增大 ,FACE处理使水稻不同生育时期的N素累积量有所提高 ,但无显著影响 ;FACE处理能够显著提高移栽后 2 8d、抽穗期以及成熟期单位N素的干物质生产效率、单位N素的籽粒生产效率和显著提高水稻的N素收获指数 .高N处理的植株含N率、N素累积量均有所增加 ,但使N素生产效率呈现下降趋势 .     

Effects of Different Nitrogen and Phosphorus Synergistic Fertilizer on Enzymes and Genes Related to Nitrogen Metabolism in Wheat

In recent years, in order to improve nutrient use efficiency, especially nitrogen use efficiency, fertilizer value-added technology has been developed rapidly. However, the mechanism of the effect of synergistic fertilizer on plant nitrogen utilization is not clear. A study was, therefore, conducted to explore the activities and gene expression of key enzymes for nitrogen assimilation and the gene expression of nitrogen transporters in wheat after the application of synergistic fertilizer. Soil column experiment was set up in Qingdao Agricultural University experimental base from October 2018 to June 2019. Maleic acid and itaconic acid were copolymerized with acrylic acid as cross-linking monomer to make a fluid gel, which was sprayed on the fertilizer surface to make nitrogen and phosphorus synergistic fertilizer. A total of 6 treatments was set according to different nitrogen and phosphorus fertilizer ratios: (1) 100% common nitrogen fertilizer+100% common phosphate fertilizer (2) 70% nitrogen synergistic fertilizer+100% phosphorus synergistic fertilizer; (3) 100% nitrogen synergistic fertilizer+70% phosphorus synergistic fertilizer; (4) 100% nitrogen synergistic fertilizer+100% phosphorus synergistic fertilizer; (5) 70% nitrogen synergistic fertilizer+70% phosphorus synergistic fertilizer; (6) 100% commercial nitrogen synergistic fertilizer+100% commercial phosphorus synergistic fertilizer. The results are as follows: (1) the enzyme activities of wheat plants under synergistic fertilizer condition were higher than those under ordinary fertilizer, except under the treatment that nitrogen and phosphorus synergistic fertilizer were both reduced; (2) the expression level of the genes under the treatment “100% nitrogen synergistic fertilizer+100% phosphorus synergistic fertilizer” was significantly higher than those in other treatments. Combined with the higher performance of nitrogen concentration in various parts of the plant under the condition of applying synergistic fertilizer, this study indicated that the application of synergistic fertilizer can improve the nitrogen metabolism of the plant by increasing the nitrogen level in the rhizosphere soil, inducing the expression of nitrogen transporter genes and key assimilation enzymes genes.

     

不同施氮量对杂交酸模叶片光合电子流分配的影响

研究了不同施氮量对高蛋白含量植物杂交酸模(Rumex patientiaxR.tianschanicus)叶片中总光合电子流和分配在碳同化、光呼吸、Mehler反应以及氮代谢上的光合电子流的影响,并研究了不同施氮量对硝酸还原酶(NR)和谷氨酰胺合成酶(GS)的活性、叶片的蛋白质含量及叶绿素含量的影响。结果表明随着施氮量的增加,硝酸还原酶和谷氨酰胺合成酶的活性都显著提高,同时更多的光合电子流分配到氮代谢和光呼吸。氮代谢所需光合电子流约占总光合电子流的15%～21%。缺氮并没有造成光合电子流向Mehler反应分配的增加。     

生物固氮研究中的几个热点问题

氮素化肥在农业生产中一直发挥重要作用,为了发展持续生态农业,全世界的研究者都在进行着长期不懈的努力,不断优化和拓展生物固氮系统。介绍固氮研究中的4个热点问题：⑴联合固氮;⑵根际微生物量氮及微生物活度;⑶通过豆科植物凝集素基因转化扩大根瘤菌宿主范围;⑷结瘤固与“类根瘤”固氮。     

Nitrogen transformations in two nitrogen saturated forest ecosystems subjected to an experimental decrease in nitrogen deposition

Nitrogen transformations were studied in the forest floor and mineral soil (0–5 cm) of a Douglas fir forest (Pseudotsuga menziesii (Mirb.) Franco.) and a Scots pine forest (Pinus sylvestris L.) in the Netherlands. Curren nitrogen depositions (40 and 56 kg N ha^-1 yr^-1, respectively) were reduced to natural background levels (1–2 kg N ha^-1 yr^-1) by a roof construction. The study concentrated on rates and dynamic properties of nitrogen transformations and their link with the leaching pattern and nitrogen uptake of the vegetation under high and reduced nitrogen deposition levels. Results of an in situ field incubation experiment and laboratory incubations were compared. No effect of the reduced N deposition on nitrogen transformations was found in the Douglas fir forest. In the Scots pine forest, however, during some periods of the year nitrogen transformations were significantly decreased under the low nitrogen deposition level. At low nitrogen inputs a net immobilization occurred during most of the year leading to a very small net mineralization for the whole year. In laboratory and in individual field plots nitrogen transformations were negatively correlated with initial inorganic nitrogen concentrations. Nitrogen budget estimates showed that nitrogen transformations were probably underestimated by the in situ incubation technique. Nevertheless less nitrogen was available for plant uptake and leaching at the low deposition plots.