Responses of growth and litterfall production to nitrogen addition treatments from common shrublands in Mt. Dongling,Beijing, China

Aims The shrublands of northern China have poor soil and nitrogen (N) deposition has greatly increased the local soil available N for decades. Shrub growth is one of important components of C sequestration in shrublands and litterfall acts as a vital link between plants and soil. Both are key factors in nutrient and energy cycling of terrestrial ecosystems, which greatly affected by nitrogen (N) addition (adding N fertilizer to the surface soil directly). However, the effects and significance of N addition on C sequestration and litterfall in shrublands remain unclear. Thus, a study was designed to investigate how N deposition and related treatments affected shrublands growth related to C sequestration and litterfall production of Vitex negundo var. heterophylla and Spiraea salicifolia in Mt. Dongling region of China.
Methods A N enrichment experiment has been conducted for V. negundo var. heterophylla and S. salicifolia shrublands in Mt. Dongling, Beijing, including four N addition treatment levels (control (N₀, 0 kg N·hm^-2·a^-1), low N (N₁, 20 kg N·hm^-2·a^-1), medium N (N₂, 50 kg N·hm^-2·a^-1) and high N (N₃, 100 kg N·hm^-2·a^-1)). Basal diameter and plant height of shrub were measured from 2012-2013 within all treatments, and allometric models for different species of shrub’s live branch, leaf and root biomass were developed based on independent variables of basal diameter and plant height, which will be used to calculate biomass increment of shrub layer. Litterfall (litterfall sometimes is named litter, referring to the collective name for all organic matter produced by the aboveground part of plants and returned to the surface, and mainly includes leaves, bark, dead twigs, flowers and fruits.) also was investigated from 2012-2013 within all treatments.
Important findings The results showed 1) mean basal diameter of shrubs in the V. negundo var. heterophylla and S. salicifolia shrublands were increased by 1.69%, 2.78%, 2.51%, 1.80% and 1.38%, 1.37%, 1.59%, 2.05% every year; 2) The height growth rate (the shrub height relative growth rate is defined with the percentage increase of plant height) of shrubs in the V. negundo var. heterophylla and S. salicifolia shrublands were 8.36%, 8.48%, 9.49%, 9.83% and 2.12%, 2.86%, 2.36%, 2.52% every year, respectively. Thee results indicated that N deposition stimulated growth of shrub layer both in V. negundo var. heterophylla and S. salicifolia shrublands, but did not reach statistical significance among all nitrogen treatments. The above-ground biomass increment of shrub layer in the V. negundo var. heterophylla and S. salicifolia shrublands were 0.19, 0.23, 0.14, 0.15 and 0.027, 0.025, 0.032, 0.041 t C·hm^-2·a^-1 respectively, which demonstrated that short-term N addition had no significant effects on the accumulation of C storage of the two shrublands. The litter production of the V. negundo var. heterophylla and S. salicifolia communities in 2013 were 135.7 and 129.6 g·m^-2 under natural conditions, respectively. Nitrogen addition promoted annual production of total litterfall and different components of litterfall to a certain extent, but did not reach statistical significance among all nitrogen treatments. Above results indicated that short-term fertilization, together with extremely low soil moisture content and other related factors, lead to inefficient use of soil available nitrogen and slow response of shrublands to N addition treatments.     

土壤-植物-大气连续体水热、CO2通量估算模型研究进展

土壤-植物-大气连续体(SPAC)水热、CO2通量的准确估算对理解陆地和大气的物质和能量交换过程有着重要意义.重点阐述了基于过程的土壤-植物-大气连续体水热、CO2通量模型,综述了统计模型、综合模型及基于遥感的模型的发展过程.其中水热通量统计模型包括基于温度和湿度以及基于温度和辐射的方法;CO2通量统计模型包括基于气候因子或蒸散因子以及基于光能利用率的方法.水热通量过程模型包括大叶、双源、多源和多层的水热传输物理模型;CO2通量过程模型包括叶片尺度及由大叶、双叶和多层方法扩展到冠层尺度的生理生态模型以及光合-蒸腾耦合模型.综合模型包括生物物理模型、生物化学模型和生物地理模型.统计模型形式简单,资料易得,对大范围的水热通量模拟具有指导意义;过程模型准确的揭示了水热和CO2通量传输的物理和生理过程,是大尺度综合模型的基础.未来生态系统水热、CO2通量估算模型将集成各种技术手段进行多尺度网络观测和大尺度机理模拟.     

北京地区典型落叶阔叶乔木叶片含氮量和δ15N值对大气氮沉降的响应

为探究植物对大气氮沉降的响应和对这部分氮素的来源指示作用,本研究通过对北京地区198个采样点,典型落叶阔叶乔木杨属(Populus)和柳属(Salix)植物叶片进行采样,测定其叶片样品含氮量和δ~(15)N值。结果表明:北京地区杨属植物叶片含氮量为16.5—38.6g/kg,平均(24.0±4.0)g/kg;柳属植物叶片含氮量为17.2—36.2g/kg,平均(25.9±4.1)g/kg。研究区域范围内杨属、柳属植物叶片的含氮量均呈现出西北低、东南高的对角线型分布,与该区域大气氮沉降的空间变异相吻合。由于研究区域范围内气候因子无明显的变异,植物叶片的含氮量变化反应了大气氮沉降对植物元素化学计量特征的影响和植物对大气氮沉降的响应。北京地区杨属植物叶片δ~(15)N值为-3.95‰—8.10‰,平均(1.15±2.48)‰;柳属植物叶片δ~(15)N值为-3.04‰—9.73‰,平均(2.31±2.60)‰。杨属和柳属植物叶片的δ~(15)N值均呈现出西北高、中部高、东南低的空间分布,与叶片含氮量空间分布趋势相反。中部城区较高的δ~(15)N值反应了交通污染对大气含氮化合物增加的影响;西北部较高的δ~(15)N值反应了该区域受人为活动排放源的影响较少,自然的氮循环是其较高δ~(15)N值的主要原因;东南部较低的δ~(15)N值则有可能是由农业活动和交通共同作用的结果。     

Responses of nitrogen and phosphorus resorption from leaves and branches to long-term nitrogen deposition in a Chinese fir plantation

为了解森林养分内循环对全球变化的响应, 基于长期模拟氮沉降试验, 研究了杉木(Cunninghamia lanceolata)人工林不同龄级(一年生、二年生和衰老)叶和枝的氮(N)、磷(P)养分分配及其再吸收特征, 并分析了不同模拟N沉降处理时间(7年和14年)杉木叶N、P养分再吸收差异。在12年生杉木中开展模拟N沉降试验, 以尿素(CO(NH₂)₂)为N源, 设N0、N1、N2和N3 4个处理水平, 施氮量分别为0、60、120和240 kg·hm ^-2·a ^-1, 每个处理重复3次。结果表明: (1)叶和枝在衰老过程中碳(C)、N和P含量逐渐降低, 且叶的C、N和P含量比枝高; N含量大小依次为一年生叶>二年生叶>衰老叶>一年生枝>二年生枝>衰老枝, 且N3 > N2 > N1 > N0, 而C:N则呈现相反的趋势; 衰老器官的C:N、C:P、N:P比新鲜器官高; N沉降增加了不同龄级叶和枝(除二年生叶外)的N、N:P和C:P, 但降低了P和C:N。(2)叶和枝的N、P养分再吸收率(RE_N、RE_P)随龄级的增加至衰老有规律地递减, 且RE_P > RE_N; 受长期N沉降的影响, RE_N叶(28.12%) <枝(30.00%), 而RE_P则为叶(45.82%) >枝(30.42%); 杉木叶和枝N:P与RE_N:RE_P之间存在极显著的线性相关关系。(3)随N沉降处理时间的增加, 叶RE_N呈降低态势, 各处理(N1、N2和N3)分别降低了9.85%、3.17%和11.71%; 而RE_P则明显上升, 分别增加了71.98%、42.25%和9.60%。研究结果表明: 不同器官、不同龄级的养分再吸收率随氮沉降处理的水平、处理时间而所有不同; RE_N:RE_P与N:P之间存在紧密关系。     

麦茬处理方式对夏玉米（Zea mays L.）根际生物活性的影响

通过两年3点的大田试验,研究了不同麦茬处理方式(平茬、立茬、除茬)对夏玉米(Zea mays L.)根际生物活性的影响.结果表明:不同麦茬处理的夏玉米根际微生物数量、土壤蛋白酶和脲酶活性均呈先升后降的变化趋势,且在吐丝期达到最大值,但在不同生育时期,不同处理间有所差异,趋势为平茬>立茬>除茬,且苗期差异较大,后期逐渐减小.麦茬处理方式对夏玉米田土壤碳通量的影响也表现出同样趋势.     

不同含湿率及加载条件对人皮质骨纳米压痕测试的影响

目的:探讨不同含湿率及加载条件对人皮质骨纳米压痕测试的影响。方法:采用美国Hysitron纳米压痕仪,设定不同加载模式(高峰载荷分别为300、400、500 nm;加载速度分别为6、8、10 nm/s)对不同含湿率(20‰、30‰、40‰、50‰、60‰)人皮质骨进行弹性模量及硬度测量。结果:在同一加载模式下,不同含湿率标本的测试值随着含湿率增高,弹性模量及硬度值均显著降低(P0.01);三种不同加载模式对含湿率为20‰标本测试值无明显变化;对含湿率60‰标本测试值有显著性影响(P0.02)。结论:纳米压痕仪测试骨微观力学特性时,测试值不仅受标本本身含湿率的影响,当测试条件改变,对湿润标本测试结果也完全不同。当使用纳米压痕技术时,通常采用脱水包埋处理的标本测试出的机械性能,对我们在微观层面认识人体骨在湿润的生理环境下的机械性能是不够全面的。     

植物群体近冠层大气CO2浓度梯度的监测技术

植被群体近冠层上大气的CO_2浓度梯度是植物群体光合消耗大气CO_2的一个表现。若运用微气象学的空气动力学方法准确测出近冠层上相距一定高度间的CO_2浓度差,配以相同高度的风速、温度差,便可既不损伤植物,也不改变植物所处的环境条件而     

氮沉降对森林生物多样性的影响

从3个方面论述了氮沉降对森林生物多样性影响：（1）森林植物多样性,包括乔木层植物、林下层植物和隐花植物;（2）土壤微生物多样性,主要是细菌和真菌;（3）森林动物多样性：主要包括地下土壤动物和地上草食动物。综合来看,氮沉降改变了物种组成,过量氮沉降降低了生物多样性。同时,也对氮沉降影响生物多样性的机理进行了分析。最后,还探讨了当前在氮沉降对森林生物多样性影响的研究方面存在的问题以及今后研究的方向。     

基于区域剖分算法的土壤碳通量空间采样策略

由于土壤碳通量在空间分布上具有很强的异质性,传统的采样方法难以对区域土壤碳通量进行精确估算,因此确定适当的采样策略对区域土壤碳通量的估算具有重要意义.本文提出一种逐点递增式采样的区域剖分部署策略(RDPG):设定初始采样点,使用改进的凸包插值算法构造Delaunay三角网,根据邻近已知采样点插值计算三角形各边垂直平分线的交点的离散度,选择离散度最大的点作为新增采样点.采用该方法对变异系数为0.42～0.59的仿真试验区域进行多次试验,结果表明:在相同试验条件下,RDPG布局策略能够获得比随机采样和均匀采样策略更高的区域土壤碳通量估算准确度.RDPG方法考虑了区域土壤碳通量的空间异质性,提高了区域土壤碳通量拟合精度.