植物的养分利用效率(NUE)及植物对养分胁迫环境的适应策略

提高养分利用效率（ＮＵＥ）是植物适应贫瘠生境的一种重要的竞争策略。养分利用效率的概念从提出到现在,曾用多个参数描述,其间经历了一个不断完善的发展过程。通过综述近年来相关的研究结果,可以初步得出以下结论：⑴不同种,不同生活型植物,乃至同株植物不同器官的ＮＵＥ存在不同程度的差异。⑵ＮＵＥ受多种因素影响。其中,养分有效性的影响研究较多,但争议较大,综合考虑,它对ＮＵＥ的影响不甚显著;叶片脱落持续时间的影     

植物叶片水分利用效率研究综述

植物能否适应当地的极限环境条件,最主要的看它们能否很好地协调碳同化和水分耗散之间的关系,即植物水分利用效率(WUE)是其生存的关键因子.就近来研究最多的叶片水平上的WUE,从叶片WUE的定义,方法,进展等方面对其进行总结概括,并就今后植物叶片水分利用效率的研究提出了几点看法:方法上,叶片碳同位素方法是目前植物叶片长期水分利用效率研究的最佳方法,而δ13C的替代指标将继续是方法研究中的一个方向,前景乐观;研究内容上,要加强极端干旱区河岸林木的δ13C和WUE的研究;结合植物生理生态学,生物学和稳定同位素技术,探究植物叶片长期水分利用效率的机理,特别是要加强运用双重同位素模型加深和理解植物叶片长期水分利用效率变化规律和内在机制的研究;要结合多种方法,加强多时空尺度植物叶片WUE及其之间的转换研究.     

刺槐人工林养分利用效率

目前普遍采用的短轮伐期萌生复壮的经营方式会使刺槐人工林在多代萌生以后地力衰退,生产力下降,其主要原因是由于树种对养分的选择吸收导致土壤养分平均失调。根据对黄土残塬沟壑区刺槐人工林地的研究表明,刺槐从土壤中年吸收养分量以Ca最多,N次之,K、Mg再次,P、S最少,且随树龄增长年吸收量增大,由速生期到杆材期年吸收量约增加1倍之多,由杆材期到成熟期N、P、K、Mg年吸收量缓慢增加,而Ca,S的吸收量有所下降,土壤养分年吸收系数以N最高,S、Mg次之,P、Ca再次,K最多,且随树龄的增长亦呈增大趋势,其均值分别可达N1．150％、P0．142％、K0．013％、Ca0．110％、Mg0.194%、S0．231％。刺槐对各养分的利用效率随树龄的增长而降低,生产1t树干材积约需从土壤中吸收N31．92－50．88kg,P1.32-2.01kg,K4.48-6.82kg,Ca71.57-78.79kg,Mg6.16-9.74kg,S1.07-1.09kg,立地条件好的林地养分吸收系数及养分利用效率均好于立地条件较差的林地。此外与杉木,油松相比,刺槐对养分的利用效率明显偏低。     

地表连年覆盖雷竹林叶片养分利用特征

对连续覆盖雷竹林换叶期林地土壤和叶片养分利用效率、养分再吸收效率进行了研究,旨在阐明地表连年覆盖栽培对雷竹林养分利用特征的影响.结果表明:连续覆盖3年雷竹林土壤N养分有效性、N素利用效率以及再吸收效率均显著性提高,雷竹林表现出较高的保存N养分的能力;土壤P元素有效性水平显著升高,而叶片P养分的利用效率显著降低,反映出叶片对土壤高P含量的适应策略,N、P养分利用效率之间存在显著的负相关关系(P＜0.05);土壤K元素的有效性水平显著降低,竹林通过提高自身的K再吸收效率来维持养分的正常循环,再吸收效率高达95.8％;不同覆盖年限雷竹林Nm/Pm均＜14,连续覆盖3年雷竹林Nm/Pm比值极显著下降,经推断是此时雷竹林对土壤有效P高吸收的结果.成熟叶片的Nm/Pm与N、P的再吸收效率均无显著相关性,Nm/Pm并不能很好地反映叶片在凋落前的养分再分配格局.     

天童国家森林公园若干树种叶水平上养分利用效率的研究

养分利用效率是养分循环研究中一个极为有用的概念 ,它反映了植物对养分的利用状况。为揭示不同生活型植物的营养策略 ,本文以天童国家森林公园若干种植物为研究材料 ,探讨不同植物的NUE大小以及不同生活型植物NUE差异。结果表明 ,常绿植物的NUEN 与NUEP 呈显著正相关 ,落叶植物的NUEN 与NUEP 相关性不显著 ;若对所有植物进行统计 ,则NUEN 与NUEP 呈显著正相关。同时 ,不同生活型植物的N营养分利用效率有显著差异 ,具体表现为针叶树 >常绿阔叶树 >落叶树。最后 ,作者认为在生产力最低的地方 ,植物的NUE最高 ,说明养分供应缺乏时 ,这些植物能更有效地利用所获得的养分来创造出更高的生物量     

蒙古栎不同冠层部位叶片养分动态

以长白山原始针阔叶混交林优势树种蒙古栎为对象,研究了6-10月生长季不同冠层叶片单位叶面积质量(LMA)、单位质量和单位叶面积的C、N、P含量变化,以及N、P的再吸收效率与利用效率.结果表明:在生长季,蒙古栎冠层上、下部叶片的LMA和单位叶面积C含量(Carea)表现出明显的月动态变化;单位叶面积N、P含量(Narea、Parea)的月变化趋势与单位质量N、P含量(Nmass、Pmass)相似,而用单位叶面积与单位质量表示的N、P再吸收效率无明显差异.冠层位置对N的再吸收效率和利用效率无明显影响,但冠层上部P的再吸收效率和利用效率显著高于冠层下部.在未来气候变化情景下,蒙古栎较高的生存力和竞争力有助于促进生态系统的养分循环.     

武夷山不同海拔植物水分利用效率的变化及其与养分变化的关系

以武夷山不同海拔(600、900、1300、1500、1800、2000和2100 m)的乔木、灌木和草本3种生活型植物为研究对象,观测其水分利用效率和叶片氮、磷养分浓度随海拔的变化趋势,旨在探索海拔梯度间水分、养分变化与植物水分利用效率变化的关系.结果表明: 植物水分利用效率随海拔的增加呈显著上升趋势,乔木叶片δ¹⁸O随海拔变化不显著.总体上看,叶片氮浓度未观测到规律性的变化,高海拔地区的叶片磷浓度显著高于低海拔地区.水分利用效率与叶片磷浓度呈显著正相关,而与叶片氮浓度相关性不显著.不同海拔植物水分利用效率变化主要由光合速率的变化引起,水分状况对植物水分利用效率的影响不显著.海拔梯度间植物叶片磷浓度的差异对光合速率影响显著,进而影响水分利用效率.     

植物养分高效利用机制研究进展

长期进化和环境适应导致不同植物或同种植物不同基因型间养分利用效率(NUE)差异明显,研究筛选植物养分高效利用基因型至关重要,其极大的增产潜力可补充代替传统植物栽培方法所需的能源.目前人们对于植物NUE概念的理解存在一定差异,造成众多研究成果缺乏可比性.通过对植物NUE的概念及其描述方式难以统一原因的分析,提出人工林NUE应采用干材生物量与林分养分总量的比值表示.综合评述了植物体内养分高效利用及植物对生长介质中养分高效吸收的生物生理学适应性机制.对养分逆境植物养分高效利用适应性策略的整个过程进行了描述,进一步阐明了Ca2+在化学通讯机制中的生物功能,指出Ca2+可能是启动植物养分高效利用挽救机制的主要调控因子,并就该领域今后研究工作的特点作了展望.     

密度对缺苞箭竹凋落物养分归还及养分利用效率的影响

在缺苞箭竹-紫果云杉原始林下,选取3个密度(D1、D2、D3)的缺苞箭竹,研究了密度对缺苞箭竹凋落物量、养分归还量及养分利用效率的影响.结果表明:3个密度缺苞箭竹的年凋落物量分别为793.2、1135.7和1458.5kg.hm-2,C归还量分别为370.7、516.2和671.5kg.hm-2,5种主要养分归还量分别为16.3、22.9和29.3kg.hm-2,均随密度的增大而增加.各密度养分年归还量中均以Ca最高(占总量的48%～58%),P和Mg最低(3%～5%),总体排序为Ca>N>K>Mg、P.除高密度(D3)缺苞箭竹在8月有一个凋落与养分归还小峰外,10月生长季末是各密度缺苞箭竹凋落及养分归还高峰期.不同密度缺苞箭竹叶N和K的再分配能力无显著差异,P的再分配能力随密度的增大而增强,Ca、Mg则显著积累.缺苞箭竹P的养分利用效率随密度的增大而增高,表明P可能是缺苞箭竹生长更新的限制因子.     

Role of phosphorus and nitrogen in photosynthetic and whole plant carbon gain and nutrient use efficiency in eastern white pine

Summary In white pine (Pinus strobus) seedlings grown in five forest soils from New York State, net photosynthetic capacity (Amax) plant^-1 was correlated with total foliar N plant^-1 (r ²=0.57), but was more highly correlated with total foliar P plant^-1 (r ²=0.82). There was no relationship (r ²<0.01) between Amax [g leaf]^-1 and foliar N [g leaf]^-1 for the pooled data set, but there was a significant (P<0.001), but weak (r ²=0.20) positive relationship between Amax [g leaf]^-1 and foliar P [g leaf]^-1 across all soils. However, within two of the five soils leaf N concentration was a significant (P<0.05) determinant of photosynthetic capacity. Due to differences in soil nutrient availabilities a large range in foliar P:N ratio (0.02–0.15) was observed, and the proportion of leaf P:N appeared to control Amax [g leaf N]^-1. Whole plant nitrogen (NUE) and phosphorus (PUE) use efficiencies were well correlated with whole plant P:N ratio. In addition, NUE was well correlated with Amax [g leaf N]^-1 and PUE was well correlated with Amax [g leaf P]^-1. However, NUE was not well correlated with PUE, and Amax [g leaf N]^-1 was not well correlated with Amax [g leaf P]^-1. These results indicated that P and/or N limitations were important components of photosynthetic nutrient relations in white pine grown in these five soils and suggest that both P and N and their proportions should be considered in analyses of photosynthesis-nutrient relations.     

The effect of increased nutrient availability on leaf turnover and aboveground productivity of two evergreen ericaceous shrubs

Summary Leaf turnover and aboveground productivity in relation to nutrient availability were studied in the evergreen shrubs Erica tetralix and Calluna vulgaris. In monospecific stands of these species four levels of nutrient (NPK) availability were created during three growing seasons. Percentage survival and life expectancy of Erica leaves decreased with increasing nutrient availability. For Calluna there was no effect. Winter mortality of Erica leaves was smaller than growing season mortality. These was no difference for Calluna. The timing of leaf mortality of both species was not affected by nutrient treatment. At the end of the experimental period current year leaf biomass, total biomass and current year second year and third year biomass of both species showed a significant increase with increasing nutrient availability. The relative increase was greater for Calluna, except for second and third year biomass. Stem production and stem mortality of both species increased with increasing nutrient availability. The increased stem mortality resulted also for Calluna in an increased leaf turnover (per unit ground area) with increasing nutrient availability. Nutrient cycling in ecosystems dominated by these species will increase with increasing nutrient availability, because of increased leaf and stem turnover and productivity. This phenotypic effect is similar to the effect of the shift in dominance between different species which occurs along natural gradients of nutrient availability.     

小麦进化材料水分利用效率与氮利用效率间相互关系

利用田间微区试验,在整株水平上研究了10种小麦进化材料水分利用效率(WUE)和氮利用效率(NUE)间的关系．结果表明,小麦在从二倍体→六倍体的长期进化过程中,WUE和NUE均逐渐增加．除法国黑麦外,其余9种小麦进化材料WUE和NUE间呈显著正相关,表明法国黑麦高的NUE可能与WUE以外的其它生理机制有关．     

Shifts in plant nutrient use strategies under secondary forest succession

In evergreen broad-leaved forests (EBLFs) in Tiantong National Forest Park, Eastern China, we studied the soil chemistry and plant leaf nutrient concentration along a chronosequence of secondary forest succession. Soil total N, P and leaf N, P concentration of the most abundant plant species increased with forest succession. We further examined leaf lifespan, leaf nutrient characteristics and root–shoot attributes of Pinus massoniana Lamb, the early-successional species, Schima superba Gardn. et Champ, the mid-successional species, and Castanopsis fargesii Franch, the late-successional species. These species showed both intraspecific and interspecific variability along succession. Leaf N concentration of the three dominant species increased while N resorption tended to decrease with succession; leaf P and P resorption didn’t show a consistent trend along forest succession. Compared with the other two species, C. fargesii had the shortest leaf lifespan, largest decay rate and the highest taproot diameter to shoot base diameter ratio while P. massoniana had the highest root–shoot biomass ratio and taproot length to shoot height ratio. Overall, P. massoniana used ‘conservative consumption’ nutrient use strategy in the infertile soil conditions while C. fargesii took up nutrients in the way of ‘resource spending’ when nutrient supply increased. The attributes of S. superba were intermediate between the other two species, which may contribute to its coexistence with other species in a wide range of soil conditions.     

Nutrient use efficiency in evergreen and deciduous species from heathlands

Summary The nutrient (N, P) use efficiency (NUE: g g^–1 nutrient), measured for the entire plant, of field populations of the evergreen shrubs Erica tetralix (in a wet heathland) and Calluna vulgaris (in a dry heathland) and the deciduous grass Molinia caerulea (both in a wet and a dry heathland) was compared. Erica and Calluna are crowded out by Molinia when nutrient availability increases. NUE was measured as the product of the mean residence time of a unit of nutrient in the population (MRT: yr) and nutrient productivity (A: annual productivity per unit of nutrient in the population, g g^–1 nutrient yr^–1. It was hypothesized that 1) in low-nutrient habitats selection is on features leading to a high MRT, whereas in high-nutrient habitats selection is on features leading to a high A; and that 2) due to evolutionary trade-offs plants cannot combine genotypically determined features which maximize both components of NUE.Both total productivity and litter production of the Molinia populations exceeded that of both evergreens about three-fold. Nitrogen and phosphorus resorption from senescing shoots was much lower in the evergreens compared with Molinia. In a split-root experiment no nutrient resorption from senescing roots was observed. Nutrient concentrations in the litter were equal for all species, except for litter P-concentration of Molinia at the wet site. Both Erica and Calluna had a long mean residence time of both nitrogen and phosphorus and a low nitrogen and phosphorus productivity. The Molinia populations showed a shorter mean residence time of N and P and a higher N- and P-productivity. These patterns resulted in an equal nitrogen use efficiency and an almost equal phosphorus use efficiency for the species under study. However, when only aboveground NUE was considered the Molinia populations had a much higher NUE than the evergreens.The results are consistent with the hypotheses. Thus, the low potential growth rate of species from low-nutrient habitats is probably the consequence of their nutrient conserving strategy rather than a feature on which direct selection takes place in these habitats.     

植被光能利用率研究进展

光能利用率是表征植物固定太阳能效率的指标,指植物通过光合作用将所截获/吸收的能量转化为有机干物质的效率,是植物光合作用的重要概念,也是区域尺度以遥感参数模型监测植被生产力的理论基础。传统的研究方法是通过生物量收获法分别确定植物生长和辐射量,求年或生长季比值;涡度相关技术作为目前直接测定植被冠层与大气间的CO2和水热交换量的唯一方法,使从冠层到景观水平的光能利用率估计成为可能。由于植被类型的差异和气候环境的综合影响使光能利用率表现出显著的空间异质性和时间动态性。在全球尺度上,利用耦合大气CO2观测、卫星遥感和大气辐射传输模型的反演模拟,发现净初级生产力的光能利用率存在明显的地理分异。影响光能利用率时空变异性的因子包括植物内在因素(如叶形、叶羧化酶含量)和外在环境因素。针对光能利用率的时空特征及其波动,建立在通量观测及模型分析基础上的跨尺度模拟,将成为今后该领域的研究重点。     

亏缺灌溉对棉花生长和水分利用效率的影响研究进展

棉花是世界上最主要的农作物之一.随着全球水资源的日益紧张,灌溉用水将成为限制棉花生产的主要因素.亏缺灌溉是一种低于作物正常腾发量的灌溉方式,可以在保证棉花产量和品质的前提下提高水分利用效率,是一种有效的节水灌溉方式.本文综述了亏缺灌溉对棉花生长和水分利用效率的影响.亏缺灌溉可以通过促进棉花由营养生长向生殖生长转化,降低...