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1.
A crop managed in a traditional way was monitored over a complete sugar beet/winter wheat/potato/winter wheat rotation cycle from 2004 to 2008. Eddy covariance, automatic and manual soil chamber, leaf diffusion and biomass measurements were performed continuously in order to obtain the daily and seasonal Net Ecosystem Exchange (NEE), Gross Primary Productivity (GPP), Total Ecosystem Respiration (TER), Net Primary Productivity (NPP), autotrophic respiration, heterotrophic respiration and Net Biome Production (NBP). The results showed that GPP and TER were subjected to important inter-annual variability due to differences between crops and to climate variability. A significant impact of intercrop assimilation and of some farmer interventions was also detected and quantified. Notably, the impact of ploughing was found to be limited in intensity (1–2 μmol m?2 s?1) and duration (not more than 1 day). Seasonal budgets showed that, during cropping periods, the TER/GPP ratio varied between 40 and 60% and that TER was dominated mainly by the autotrophic component (65% of TER and more). Autotrophic respiration was closely related to GPP during the growth period. The whole cycle budget showed that NEE was negative and the rotation behaved as a sink of 1.59 kgC m?2 over the 4-year rotation. However, if exports are deducted from the budget, the crop became a small source of 0.22 (±0.14) kgC m?2. The main causes of uncertainty with these results were due to biomass samplings and eddy covariance measurements (mainly, uncertainties about the u* threshold determination). The positive NBP also suggested that the crop soil carbon content decreased. This could be explained by the crop management, as neither farmyard manure nor slurry had been applied to the crop for more than 10 years and because cereal straw had been systematically exported for livestock. The results were also strongly influenced by the particular climatic conditions in 2007 (mild winter, and dry spring) that increased the fraction of biomass returned to the soil at the expense of harvested biomass, and therefore mitigated the source intensity. If 2007 had been a ‘normal’ year, this intensity would have been twice as great. This suggests that, in general, the rotation behaved as a small carbon source, which accords with similar studies based on multi-year eddy covariance measurements and export assessment and with modelling or inventory studies analysing the evolution of crop soil organic carbon (SOC) on a decennial scale.  相似文献   

2.
The term ‘Konservierende Bodenbearbeitung’ has a somewhat different meaning than conservation tillage as used worldwide. In Germany the term is used not only in relation to the retention of surface residues to reduce erosion but in association with compaction control by carefully timed loosening operations.Field experiments were conducted from 1985 to 1990 on a loamy sand (Dystric-Luvisol) in north-central Germany. The effect of crop rotation-specific soil loosening on some soil physical properties and crop yields was studied in the presence and absence of wheel-induced soil compaction when growing sugar beet, winter wheat, winter barley and a cover crop. Five tillage treatments were studied in a 3-year crop rotation: sugar beet; winter wheat; winter barley; cover crop. These included conventional mouldboard ploughing, conservation tillage with no loosening and conservation tillage where loosening was carried out with a wide blade chisel plough, (1) before winter barley, (2) before the cover crop (mustard or California bluebell) and (3) before winter barley and the cover crop.Wheel-induced compaction decreased the pore space and in most cases eliminated differences due to tillage practice. Pore space on the wheel-tracked plots of the conventional treatment was considerably lower than on the non-wheel-tracked plots. Similar results were obtained for the conservation tillage plots but only where loosening had been carried out within the last 18 months.In summary of the 6 years experiment, there was in general no evidence that conventional tillage was superior to conservation tillage with respect to the yields of sugar beet, winter wheat, or, within certain limits, winter barley on loamy sand.Accordingly, conservation tillage with crop rotation-specific non-inverting soil loosening, promises to be a potential strategy not only with regard to reducing soil erosion, but a programme for reducing costs and alleviating traffic-induced soil compaction.  相似文献   

3.
Collembola and microbial biomass C were investigated in a field experiment with controlled agricultural traffic and crop rotation over a period of 27 months. The wheel-induced compactive efforts were applied according to management practices within the crop rotation of sugar beet, winter wheat, and winter barley. Increasing wheel traffic produced increasing soil compaction, mainly due to a reduction in surface soil porosity. Increasing soil compaction was accompanied by a decrease in microbial biomass C and the density of collembola. The influence of soil compaction on microbial biomass C was smaller than that of the standing crop. However, for collembola, especially euedaphic species, a reduction in pore space appeared to be of more importance than the effects of a standing crop. Within the crop rotation, microbial biomass C and the density of collembola increased in the order sugar beet, winter wheat, and winter barley.  相似文献   

4.
Chamber measurements of total ecosystem respiration (TER) in a native Canadian grassland ecosystem were made during two study years with different precipitation. The growing season (April–September) precipitation during 2001 was less than one-half of the 30-year mean (1971–2000), while 2002 received almost double the normal growing season precipitation. As a consequence soil moisture remained higher in 2002 than 2001 during most of the growing season and peak aboveground biomass production (253.9 g m−2) in 2002 was 60% higher than in 2001. Maximum respiration rates were approximately 9 μmol m−2 s−1 in 2002 while only approximately 5 μmol m−2 s−1 in 2001. Large diurnal variation in TER, which occurred during times of peak biomass and adequate soil moisture, was primarily controlled by changes in temperature. The temperature sensitivity coefficient (Q10) for ecosystem respiration was on average 1.83 ± 0.08, and it declined in association with reductions in soil moisture. Approximately 94% of the seasonal and interannual variation in R10 (standardized rate of respiration at 10 °C) data was explained by the interaction of changes in soil moisture and aboveground biomass, which suggested that plant aboveground biomass was good proxy for accounting for variations in both autotrophic and heterotrophic capacity for respiration. Soil moisture was the dominant environmental factor that controlled seasonal and interannual variation in TER in this grassland, when variation in temperature was held constant. We compared respiration rates measured with chambers and that determined from nighttime eddy covariance (EC) measurements. Respiration rates measured by both techniques showed very similar seasonal patterns of variation in both years. When TER was integrated over the entire growing season period, the chamber method produced slightly higher values than the EC method by approximately 4.5% and 13.6% during 2001 and 2002, respectively, much less than the estimated uncertainty for both measurement techniques. The two methods for calculating respiration had only minor effects on the seasonal-integrated estimates of net ecosystem CO2 exchange and ecosystem gross photosynthesis.  相似文献   

5.
华北平原农田生态系统碳过程与环境效应研究   总被引:1,自引:0,他引:1  
本文总结了25年来针对华北平原小麦-玉米两熟系统,农田的碳循环对气候变化(温度升高)和管理措施(氮肥施入、秸秆还田和耕作方式等)响应机制的研究成果。自2001年起我们在中国科学院栾城农业生态系统试验站建立了3个长期定位碳循环试验:耕作试验、有机循环试验和增温试验,并完善了4种农田碳过程监测方法体系:隔离罐-碱液吸收CO_2法、静态箱-气相色谱法、涡度相关技术和浓度梯度法。量化了华北平原小麦-玉米两熟系统碳输入-输出的平衡,并对华北平原施氮农田土壤碳截留进行了再评价,指出秸秆还田下高水高肥的精细管理农田正在以77 g(C)·m~(-2)·a~(-1)的速度丢失碳;此外长期氮施入虽然显著增加0~100 cm土体的土壤有机碳含量,但同时会造成0~60 cm土体土壤无机碳含量显著降低。我们在对碳过程环境效应的研究中进一步指出:增温和施氮均会降低CH4汇强度,但对土壤呼吸无显著影响,这可能主要是由于试验增温诱发的土壤干旱抵消了土壤温度的部分影响和土壤呼吸对土壤温度升高的适应性造成的。我们对剖面土壤气体的研究表明施氮对剖面CH4和CO_2均无显著影响。进一步将静态箱法和浓度梯度法相结合的研究结果表明0~40cm土层是北方旱地无氮农田土壤CO_2产生和CH4吸收的主要发生层。  相似文献   

6.
孟磊  丁维新  何秋香  蔡祖聪 《土壤》2008,40(5):725-731
为阐明施肥对农田土壤呼吸的影响,于2002年6月至2003年6月在河南封丘潮土上进行的长期试验地上测定了玉米/冬小麦轮作系统下的土壤呼吸,分析了土壤呼吸与土壤水分和温度的关系,并利用统计分析方法研究了土壤呼吸各组分的贡献。土壤呼吸变化与作物生长发育规律一致,施肥通过影响作物的生长发育而对土壤呼吸产生影响。不同作物生长期,根际呼吸、土壤原有机质以及前作根茬和有机肥中碳对土壤呼吸的贡献不同。玉米期土壤有机质、根际呼吸、前作根茬和有机肥中的碳对土壤呼吸的平均贡献率分别为70.19%、19.43%和10.37%;而小麦生长期则分别为23.75%、62.26%和14.11%。由于不同施肥处理的作物生长量、土壤有机质含量以及前作根茬和有机肥施入而进入的有机碳量不同,造成土壤呼吸个体上存在着较大差异。土壤有机质的消耗主要发生在玉米生长阶段。  相似文献   

7.
Information on gross primary production (GPP) of maize croplands is needed for assessing and monitoring maize crop conditions and the carbon cycle. A number of studies have used the eddy covariance technique to measure net ecosystem exchange (NEE) of CO2 between maize cropland fields and the atmosphere and partitioned NEE data to estimate seasonal dynamics and interannual variation of GPP in maize fields having various crop rotation systems and different water management practices. How to scale up in situ observations from flux tower sites to regional and global scales is a challenging task. In this study, the Vegetation Photosynthesis Model (VPM) and satellite images from the Moderate Resolution Imaging Spectroradiometer (MODIS) are used to estimate seasonal dynamics and interannual variation of GPP during 2001-2005 at five maize cropland sites located in Nebraska and Minnesota of the U.S.A. These sites have different crop rotation systems (continuously maize vs. maize and soybean rotated annually) and different water management practices (irrigation vs. rain-fed). The VPM is based on the concept of light absorption by chlorophyll and is driven by the Enhanced Vegetation Index (EVI) and the Land Surface Water Index (LSWI), photosynthetically active radiation (PAR), and air temperature. The seasonal dynamics of GPP predicted by the VPM agreed well with GPP estimates from eddy covariance flux tower data over the period of 2001-2005. These simulation results clearly demonstrate the potential of the VPM to scale-up GPP estimation of maize cropland, which is relevant to food, biofuel, and feedstock production, as well as food and energy security.  相似文献   

8.
Wintergerste in der Fruchtfolge: Zuckerrüben--Sommerweizen--Wintergerste reagierte auf die mineralische N-Düngung stärker als auf die organische Düngung. Der maximale Kornertrag (5,10 t/ha) wurde bei 135 kg N/ha der organischen Düngungsvariante mit Biokompost zur Zuckerrübe erreicht. Winter barley cultivated in crop rotation: sugar beet, spring wheat, winter barley reacted more on differentiated rates of mineral nitrogen than on various organic fertilization. Winter barley yielded highest (5,10 t/ha) upon the effect of 135 kg N/ha after vermicompost application under sugar beet.  相似文献   

9.
Lysimeter study about the effect of fertilization and management on yield, water balance, and solute leaching in the dry region of the Uckermark Results are presented of a lysimeter study on the effects of fertilization and management on yield, seepage rate, and solute leaching in the dry region of the Uckermark (Northeast Germany) from 1992 to 1999. The crop rotation included sugar beet, summer barley, pea, and winter wheat with fertilization of 280 and 400 kg N ha—1 within the crop rotation. Additionally to the mineral fertilization, sugar beet was fertilized with the sugar beet leaf or slurry. The average annual seepage rate was 13.7 mm, the nitrogen leaching was 4.3 kg N ha—1, and the phosphorus leaching was 0.008 kg P ha—1. Differences between the treatments were negligible and insignificant. The amount of the precipitation from April to September had a significant influence on yields. Furthermore, results of water use efficiency and the effect of different nitrogen rates on yields are presented.  相似文献   

10.
利用冬小麦拔节乳熟期(2004-04-01—05-20和2005-04-10—05-31)在田间观测的每30min涡度相关和小气候数据,计算散射辐射比例(DF)与光能利用率(LUE)和总初级生产力(GPP)之间的数量关系,以期为提高LUE模型和作物模型的模拟准确度提供依据。结果表明:冬小麦拔节-乳熟期DF与LUE间呈极显著的线性正相关关系(P<0.001),DF与GPP间为极显著的抛物线关系(P<0.001),即随着DF的增加,LUE呈线性增长,而GPP呈先增加后降低的变化趋势。2004年和2005年观测实验表明,中等太阳辐射条件下,即DF和光合有效辐射(PAR)的均值分别为0.57和27.7molm?2d?1时,冬小麦GPP达到最高。2004年与2005年相比较,DF与LUE、DF与GPP关系均存在较大差异,这主要归因于两年间冬小麦拔节?乳熟期PAR水平和DF分布频率的差异。  相似文献   

11.
The supplies of water and nitrogen to a plant during its critical stages of growth are the main factors that define crop yield. A crop experiences irregular water deficits during its life cycle in rain‐fed agriculture. An effective anti‐stress‐oriented approach therefore ought to focus on increasing the units of water productivity. The main objective of this conceptual review is to confirm that adequate K management can be used as an important tool to alleviate the negative effects of water deficit on plant growth, yield‐component formation, and yield. The French and Schultz approach of using the water‐limited yield (WLY) was modified in this review into a graphical form and was used to discriminate between yield fractions that depended on the volume of transpired water from those that were induced by K fertilizer. By using this method, it was possible to demonstrate the extent of several crop (winter wheat, spring triticale, maize, sugar beet) responses to the K supply. Yield increases resulting from K application mostly appeared under conditions of mild water deficit. As described for sugar beet, finding the critical period of crop K sensitivity is a decisive step in understanding its impact on water‐use efficiency. It has been shown that an insufficient supply of K during crucial stages in the yield formation of cereals (wheat, spring triticale), maize, and sugar beet coincides with a depressed development in the yield components. The application of K fertilizer to plants is a simple agronomic practice used to increase crop tolerance to a temporary water shortage. It may be that the improvement of a plant's access to K during mild water‐deficiency stress will increase water uptake by the root cells, which in turn increases their osmotic potential and thereby allows extension growth. This growth in turn promotes access to other mineral elements (including nitrogen) and water, which favor plant growth and yield.  相似文献   

12.
In a four-year field study the nitrogen supply by mass flow and diffusion to cereals (spring wheat, winter barley, winter wheat) and sugar beet was investigated on a silty loam soil. The rates of water withdrawal, N mass flow and N diffusion were determined as a function of soil depth and time. The contribution to the N supply to roots by mass flow was 15–33% and mainly confined to the topsoil layer. The N supply by diffusion plays with 67–85% the dominant role, particularly in deeper rootzone layers. During periods of high N uptake, the N inflow (per unit root length and time) ranges between 0.26–2.07 μmol/(m · d) at various rootzone layers for cereal, and between 3.80–8.98 μmol/(m · d) for sugar beet, respectively. As a consequence of the high proportion of diffusion supply, at harvest the whole rootzone was largely depleted of nitrate. Thus, nitrate leaching losses during winter were small, the average nitrate concentration of the yearly groundwater recharge being only 7.9 mg N/l. Additionally, some results on supply of K, Ca, Mg and Cl for spring wheat and sugar beet are given. Diffusion supply prevails for K, and in the case of sugar beet for Mg and Cl also. Mass flow of Ca exceeded uptake considerably.  相似文献   

13.
In order to assess the capacity of the boreal forest ecosystem to intercept atmospheric carbon over a period of years, a climate-driven growth model (FinnFor, process-based) was applied to calculate the seasonal and inter-annual variability of net ecosystem CO2 exchange (NEE) and component carbon fluxes (gross primary production - GPP and total ecosystem respiration - TER) against a 10-year (1999-2008) period of eddy covariance (EC) measurements in a Scots pine (Pinus sylvestris L.) stand in Eastern Finland. Furthermore, the role of climatic factors, leaf area index (LAI) and physiological responses of trees regarding the ecosystem carbon fixation processes were evaluated. An hourly time-step was used to simulate the carbon exchange based on measured tree/stand characteristics and meteorological input for the experimental site, and the dynamic LAI was used throughout the 10-year simulations. The model predicted well the annual course of NEE compared to the measured values for most of the years, with the development of LAI (2.4-3.3 m2 m−2, as simulated). The simulated NEE over the study period shows that, on average, 62% of the variation refers to daily and 88% to monthly measured NEE. Both modeled and measured daily NEE showed similar responses to the temperature, photosynthetically active radiation and vapor pressure deficit during the growing seasons. In the simulation, the annual amount of GPP varied from 720.8 to 910.4 g C m−2 with a mean value of 825.3 g C m−2, and the annual mean TER/GPP ratio was 0.79, close to the measured value. Carbon efflux from the forest floor was the dominant contributor to the forest ecosystem respiration. The inter-annual variation of GPP mostly corresponded to the development of LAI, temperature sum and total incoming radiation over the 10-year simulation period. It was suggested that the process-based model could be applied to study the carbon processes for natural and management-induced dynamics of Scots pine forest ecosystem over longer periods across a wider climate gradient in the boreal zone.  相似文献   

14.
通过分析不同作物轮作模式下秸秆还田对土壤呼吸及其温度敏感性的影响,为深入探究关中地区农田生态系统碳循环提供理论依据。试验设置于陕西省杨凌地区,在2012年10月至2014年9月期间以冬小麦-夏玉米轮作模式和冬小麦-夏大豆轮作模式作为研究对象,分别设置秸秆还田(SM)和秸秆不还田(NS)两个处理,测定分析不同处理下土壤呼吸、土壤温度及土壤含水量的变化趋势和差异,并估算土壤呼吸的温度敏感性(Q_(10))。结果表明:土壤呼吸存在明显的季节变化,在作物生育期大部分时间内,SM处理的土壤呼吸速率均显著高于NS处理(P0.05),且SM处理的作物生育期土壤呼吸平均速率及土壤呼吸累计排放量也极显著高于NS处理(P0.01);不同作物生育期土壤呼吸平均速率依次为夏玉米夏大豆冬小麦,土壤呼吸总量表现为冬小麦夏玉米夏大豆、冬小麦-夏玉米轮作冬小麦-夏大豆轮作。冬小麦-夏玉米轮作与冬小麦-大豆轮作的土壤温度间存在差异;其中,在冬小麦生育前期,冬小麦-夏玉米轮作的土壤温度显著高于冬小麦-大豆轮作;第2季夏玉米生育期内5 cm深度的土壤温度显著低于同季的夏大豆;相比NS处理,SM处理能提高冬季土壤的温度,并降低春季和夏季的土壤温度;在高温少雨的时期内,SM处理能够提高0~30 cm土壤的平均含水量,不同的前茬作物引起两种轮作模式中冬小麦耕作层土壤含水量间明显的差异,夏玉米耕作层土壤含水量显著高于夏大豆。相关分析表明,土壤呼吸与5 cm和10 cm土壤温度均存在极显著的正相关性,且与5 cm土壤温度的相关性更好;但土壤呼吸与0~30 cm的土壤平均含水量无显著相关性。5 cm和10 cm土壤温度变化能够分别解释土壤呼吸变化的64.6%~67.3%和51.5%~59.6%。整个研究周期内,温度敏感性(Q_(10))为1.70~2.01,冬小麦-夏玉米轮作的温度敏感性显著高于冬小麦-大豆轮作,且同一轮作模式下SM处理的温度敏感性显著低于NS处理。因此,秸秆还田能够提高农田的土壤呼吸作用,降低土壤呼吸的温度敏感性,同时能够调节土壤的水热状况。  相似文献   

15.
作物对盐分的吸收及其盐害的预测预报   总被引:9,自引:1,他引:8  
李加宏  俞仁培 《土壤学报》1998,35(3):352-358
通过温室和田间试验,研究小麦和甜菜在盐胁迫下的生长及其对盐分的吸收。结果表明,小麦耐热略低于甜菜,Na^+抑制小麦和甜菜对K^+和Ca^2+的吸收,小麦和甜菜的相对干物质重与土壤含盐量的关系符合Maas-Hoffman模型,小麦和甜菜叶Na^+含量与土壤含盐量呈显著正相关,且与干物质重的关系也符合Maas-Hoffman模型,文中提出了利用作物叶的Na^+含量与相对干物质重之间的Maas-Hoff  相似文献   

16.
Ammonia emissions from senescing plants and during decomposition of crop residues NH3 emissions from plant stands, measured under simulated environmental conditions with the wind tunnel method, ranged between 0.8 and 1.4% of the N content of the shoot, equivalent to 1.1 to 2.9 kg NH3-N ha?1. The highest emissions were observed in faba beans whereas the emissions in winter wheat, spring rape and white mustard were lower. The total NH3 emissions were not affected by removing a part of the ears (sink reduction), but emissions occurred earlier, as did the plant senescence. This suggests that the NH3 emissions are closely related to senescence. NH3 emissions from decomposing crop residues ranged from 0.9 to 3.7% of the N content. The emissions from sugar beet leaves and potato shoots with high water content reached from 8.6 up to 12.6 kg N ha?1, whereas the emissions from field bean straw with high dry matter and N content were relatively low. (3.1 kg N ha?1, or 0.9% of the N content). The NH3 emissions from sugar beet leaves were reduced by 81% by ploughing and 63% by mulching.  相似文献   

17.
基于涡度相关仪的蒸散量时间尺度扩展方法比较分析   总被引:6,自引:3,他引:3  
蒸散量(ET,evapotranspiration)的时间尺度扩展是遥感反演区域ET的关键。为比较基于蒸发比、作物系数和冠层阻力的3种ET时间尺度扩展方法的估值效果,该文利用涡度相关仪实测的北京大兴区冬小麦3-6月份生育期内的ET数据,分析了蒸发比、作物系数和冠层阻力3种参数在日内的变异性并最终比较基于3种参数的ET时间尺度扩展方法的估值效果。结果表明,作物系数在日内变异性最小且其在3个时段的小时值最接近日均值,此外,对比3种方法的估值效果发现,基于作物系数的ET时间尺度扩展方法在3个时段表现效果均最优。对与具有相近气象、气候、下垫面条件和空间尺度数据的地区,推荐采用基于作物系数的时间尺度扩展方法开展从小时到日的ET时间尺度扩展。  相似文献   

18.
The establishment of cover crops, in relay, to minimise soil erosion, improve soil physical condition and provide a main-season crop in rotation with potatoes (Solanum tuberosum L.) is a recommended agronomic practice in Atlantic Canada. This is usually achieved by seeding winter rye (Secale cereale L.) or winter wheat (Triticum aestivum L.) immediately after potato harvest for ground cover followed, the next spring, by inter-seeding an annual or biennial forage crop by drilling. Spring drill seeding can, however, be delayed or prevented by wet ground conditions, thus, making broadcast seeding a considered alternative. This study examined, therefore, the comparative merits of spring broadcast seeding and drill seeding of two adapted forages, Italian ryegrass (Lolium multiflorum Lam.) and red clover (Trifolium pratense L.), into a standing crop of fall-seeded winter rye or winter wheat. Crop performance was evaluated, using meter-square quadrats, as ground coverage and grain yield (of cereals). Soil compaction, evaluated as shear strength in the 0–15 cm layer (avoiding wheel tracks) of a fine sandy loam (Orthic Podzol), was greater after drill seeding than after broadcast seeding by a factor of 7.2% and was attributed to the greater ground-contact mass of the drill seeder. The forage crops provided 5.5% more ground coverage with drill seeding than with broadcast seeding. However, seeding method had no effect on the cereal host crops' ground coverage or grain yield. Ryegrass coverage was 123% of red clover coverage and winter rye coverage was 176% of winter wheat coverage. Forage coverage, in this study, suffered no setback because of the greater soil compaction associated with drill seeding. However, soils are subject to greater compaction under wetter conditions, thus, broadcast seeding is expected to be a better option, the wetter the spring.  相似文献   

19.
The variation in the root diameter of field-grown crops was directly measured under a microscope by manually removing soil particles from roots without washing the roots. The frequency of the root diameter at the mode (about 10 μm, mainly of root hairs) was higher in wheat and maize (about 60%) than in soybean and sugar beet (about 30%), and it was the lowest in potato (21%). The diameter of 88 to 97% of the roots larger than 20 μm ranged from 21 to 160 μm. The finer the roots, the higher was the frequency, except for potato roots in which the frequency of roots with a diameter of 21 to 40, 41 to 80, and 81 to 160 μm was about 30%. Since fine roots and root hairs account for the largest proportion of the crop root system, they should appropriately be quantified whenever morphological and physiological aspects of roots are analyzed.  相似文献   

20.
Nutrient efficiency is defined as the ability of plants to obtain higher relative yields at low nutrient supply compared to other species. The size of the root system, the physiology of uptake and the ability of plants to increase K solubility in the rhizosphere are considered as mechanisms of uptake efficiency. In a solution experiment wheat and sugar beet were more K efficient than potato because wheat had a large root system and both species had an efficient uptake physiology. Also in soil wheat was uptake efficient because of a large root system, whereas the efficiency of sugar beet was caused by the ability to increase K solubility. This could be shown by the use of a model to describe K dynamics in the rhizosphere.  相似文献   

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