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1.
时域传输技术测定盐土含水量的应用研究 总被引:2,自引:1,他引:1
为检测所研制的时域传输仪(ti me domain transmission,TDT)测定土壤含水量的性能,通过室内土柱试验,对时域传输仪在3种质地非盐土和滨海盐土上测定土壤含水量的性能进行了评估。结果表明:在一般非盐化的农业土壤和滨海盐土上,土壤体积含水量和TDT输出的电压之间均存在线性关系。在砂土和砂壤土上,可以忽略质地差异和容重因素的影响用统一关系式计算含水量,估计标准误差是0.017cm3/cm3;在壤黏土上容重因素影响明显,应用时需要单独校正,校正后计算含水量的估计标准误差小于0.016cm3/cm3。TDT水分测试仪在盐溶液中浸入深度和输出的电压值始终保持线性关系,且不受溶液电导率的影响。在滨海盐土上,不同容重条件下土壤体积含水量和TDT输出的电压均呈线性关系,且容重因素影响不明显,可以建立统一的含水量校正关系,估计标准误差是0.019cm3/cm3。因此,TDT水分测试仪可以测定一般农业土壤含水量,在盐溶液中具有抗盐分干扰的优良特性,在滨海盐土含水量的测定上也具有很好的适用性。 相似文献
2.
He ZHANG Yan LI Ya-li MENG Nan CAO Duan-sheng LI Zhi-guo ZHOU Bing-lin CHEN Fu-gen DOU 《农业科学学报》2019,18(11):2472-2482
In the coastal saline soils, moisture and salinity are the functions of groundwater depth affecting crop growth and yield. Accordingly, the objectives of this study were to: 1) investigate the combined effects of moisture and salinity stresses on wheat growth as affected by groundwater depth, and 2) find the optimal groundwater depth for wheat growth in coastal saline soils. The groundwater depths (0.7, 1.1, 1.5, 1.9, 2.3, and 2.7 m during 2013–2014 (Y1) and 0.6, 1.0, 1.4, 1.8, 2.2, and 2.6 m during 2014–2015 (Y2)) of the field experiment were maintained by soil columns. There was a positive correlation between soil moisture and salinity. Water logging with high salinity (groundwater depth at 0.7 m in Y1 and 0.6 m in Y2) showed a greater decline towards wheat growth than that of slight drought with medium (2.3 m in Y1) or low salinity (2.7 m in Y1, 2.2 and 2.6 m in Y2). The booting stage was the most sensitive stage of wheat crop under moisture and salinity stresses. Data showed the most optimal rate of photosynthesis, grain yield, and flour quality were obtained under the groundwater depth (ditch depth) of 1.9 m (standard soil moisture with medium salinity) and 2.3 m (slight drought with medium salinity) in Y1 and 1.8 m (standard soil moisture with medium salinity) and 2.2 m (slight drought with low salinity) in Y2. The corresponding optimal soil relative moisture content and conductivity with the 1:5 distilled water/soil dilution, in the depth of 0–20 cm and 20–40 cm in coastal saline soils, were equal to 58.67–63.07% and 65.51–72.66% in Y1, 63.09–66.70% and 69.75–74.72% in Y2; 0.86–1.01 dS m–1 and 0.63–0.77 dS m–1 in Y1, 0.57–0.93 dS m–1 and 0.40–0.63 dS m–1 in Y2, respectively. 相似文献
3.
外源汞添加对土壤微生物区系的影响 总被引:2,自引:0,他引:2
汞作为环境的主要污染重金属之一,对土壤微生物的影响是表征其环境效应的重要方面,结果可为土壤环境监测等提供生物学依据。以安徽省淮南市水稻土为材料,通过室内模拟试验探索了汞对土壤微生物区系的影响。结果表明,汞对土壤中细菌、真菌和放线菌的增殖总体上具有抑制作用,但这种抑制效应具有波动性特点,并且随着培养时间的延长微生物的被抑制程度减弱。高浓度汞(50 mg·kg-1)在整个培养期内对细菌、真菌和放线菌均有显著的抑制作用;中低浓度汞(10 mg·kg-1和2 mg·kg-1)对微生物影响随培养时间而波动。全汞和有效汞的含量显著影响了三大菌群的数量(P0.05)。真菌在较高汞污染土壤上产生抗性,而放线菌对汞污染较为敏感,能够指示程度较轻的土壤汞污染。 相似文献
4.
Effects of reduced nitrogen and suitable soil moisture on wheat(Triticum aestivum L.) rhizosphere soil microbiological,biochemical properties and yield in the Huanghuai Plain,China 
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下载免费PDF全文 ZHOU Su-mei ZHANG Man ZHANG Ke-ke YANG Xi-wen HE De-xian YIN Jun WANG Chen-yang 《农业科学学报》2020,19(1):234-250
Soil management practices affect rhizosphere microorganisms and enzyme activities, which in turn influence soil ecosystem processes. The objective of this study was to explore the effects of different nitrogen application rates on wheat(Triticum aestivum L.) rhizosphere soil microorganisms and enzyme activities, and their temporal variations in relation to soil fertility under supplemental irrigation conditions in a fluvo-aquic region. For this, we established a split-plot experiment for two consecutive years(2014–2015 and 2015–2016) in the field with three levels of soil moisture: water deficit to no irrigation(W1), medium irrigation to(70±5)% of soil relative moisture after jointing stage(W2), and adequate irrigation to(80±5)% of soil relative moisture after jointing stage(W3); and three levels of nitrogen: 0 kg ha~(–1)(N1), 195 kg ha~(–1)(N2) and 270 kg ha~(–1)(N3). Results showed that irrigation and nitrogen application significantly increased rhizosphere microorganisms and enzyme activities. Soil microbiological properties showed different trends in response to N level; the highest values of bacteria, protease, catalase and phosphatase appeared in N2, while the highest levels of actinobacteria, fungi and urease were observed in N3. In addition, these items performed best under medium irrigation(W2) relative to W1 and W3; particularly the maximum microorganism(bacteria, actinobacteria and fungi) amounts appeared at W2, 5.37×10~7 and 6.35×10~7 CFUs g–1 higher than those at W3 in 2014–2015 and 2015–2016, respectively; and these changes were similar in both growing seasons. Microbe-related parameters fluctuated over time but their seasonality did not hamper the irrigation and fertilization-induced effects. Further, the highest grain yields of 13 309.2 and 12 885.7 kg ha~(–1) were both obtained at W2 N2 in 2014–2015 and 2015–2016, respectively. The selected properties, soil microorganisms and enzymes, were significantly correlated with wheat yield and proved to be valuable indicators of soil quality. These results clearly demonstrated that the combined treatment(W2 N2) significantly improved soil microbiological properties, soil fertility and wheat yield on the Huanghuai Plain, China. 相似文献
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为探讨耐盐植物种植对滨海盐土化学性质及微生物群落结构的影响,在滨海盐土环境下,以种植耐盐植物费菜(Sedum aizoon L.)、田菁(Sesbania cannabina(Retz.)Poir.)、蒲公英(Taraxacum mongolicum Hand.-Mazz.)的样地和未种植植物的裸地土壤(CK)为研究对象,采用土壤农化分析技术和磷脂脂肪酸(PLFA)生物标记法,对土壤化学性质、微生物群落结构及多样性进行分析。结果表明,与裸地比较,种植植物样地土壤电导率和速效钾含量均显著下降,分别下降了20.26%~57.21%和23.42%~37.80%;而有机质含量和有效磷含量显著升高,分别升高了39.16%~53.01%和106.48%~259.92%。种植植物样地土壤中PLFA种类明显增加,微生物群落也有所改变,3个植物样地土壤中总PFLAs含量和革兰氏阴性菌、放线菌、AM真菌、真核生物、真菌PFLA含量显著升高,分别升高21.53%~103.32%、4.96%~63.37%、82.91%~222.72%、50.00%~160.25%、32.05%~268.59%、19.39%~454.77%;真菌/细菌(F/B)PFLA含量也显著升高1.00~6.50倍,而革兰氏阳性菌PFLA含量和革兰氏阳性菌/革兰氏阴性菌(G+/G-)PFLA含量却显著下降,分别下降了48.06%~57.78%和59.77%~68.68%。此外,种植植物样地土壤微生物群落结构多样性也明显提高。研究表明,种植费菜和蒲公英可以降低滨海盐土土壤电导率,有利于土壤有机质的积累,同时其促进多种微生物的繁殖,可有效改善滨海盐土的微生态环境。 相似文献
6.
蚯蚓-菌根互作对滨海盐碱土的改良作用 总被引:2,自引:0,他引:2
为改良滨海盐碱地不良的土壤理化性质,使其适合作物生长,从生物改良角度,研究蚯蚓(Eisenia fetida)与丛枝菌根真菌(Rhizophagus intraridices)互作对滨海盐碱地的改良作用。采用盆栽试验,以玉米为研究对象,设置不加菌根和蚯蚓(CK)、接种菌根真菌(AM)、添加蚯蚓(EW)、添加蚯蚓和菌根真菌(AM+EW)共4个处理,测定不同处理土壤理化性质及玉米生长相关指标。结果表明:添加蚯蚓和接种菌根真菌均能降低土壤pH及水溶性全盐含量(P0.05),提高玉米对土壤养分的吸收(P0.05)。同时,蚯蚓能促进菌根真菌的定殖(P0.05),二者互作使土壤水溶性全盐含量降低25.4%,玉米根系表面积增加51.8%,对氮磷钾的吸收量分别提高31.1%、21.0%、48.3%,地上部生物量提高80.2%。因此,在滨海盐碱地添加蚯蚓及菌根真菌可降低土壤pH及水溶性全盐含量,改善植物根际环境,促进玉米根系生长,促进其对土壤养分的吸收,提高玉米养分及生物量。 相似文献
7.
不同母质发育红壤上玉米生长与土壤pH、交换性铝、交换性钙的关系 总被引:4,自引:1,他引:3
为探明红壤酸害的机理,采集了三种母质发育的红壤,经酸度调控后进行玉米盆栽试验。研究结果表明,玉米生物量与土壤pH的关系:土壤pH临界点为5.5左右,母质不同,临界点略有差异。土壤pH小于pH临界点时,玉米生物量随土壤pH的增加而线性增加,大于pH临界点时,玉米生物量基本保持不变(第四纪红土)或略有下降(板页岩、红砂岩)。土壤pH与交换性铝含量的关系:当土壤pH小于pH临界点时,随着土壤pH的增加,交换性铝含量直线下降;当土壤pH大于pH临界点时,交换性铝含量接近0,基本保持不变。土壤pH与交换性钙含量关系:第四纪红土土壤交换性钙含量随土壤pH增加线性增加;当土壤pH大于pH临界点时,板页岩、红砂岩土壤交换性钙含量随土壤pH呈线性增加,当土壤pH小于pH临界点时,土壤交换性钙含量基本保持不变,其值很小。不同母质发育的红壤,其土壤pH及交换性铝、交换性钙含量的临界值分别为第四纪红土:5.48及0.14、4.59 cmol·kg~(-1);板页岩:5.82及0.16、5.46 cmol·kg~(-1);红砂岩:5.54及0.13、3.06 cmol·kg~(-1)。 相似文献
8.
为了研究土壤发育过程中形成的不同程度盐渍化土壤特性,以苏北大丰港为研究对象,探讨不同盐渍化程度下土壤养分及生物学特性的变化特征。研究表明:(1)近海口处多为盐土与重度盐渍化土壤,无植被生长;2~4 km处以中度盐渍化土壤为主,植被类型为碱蓬(Suaeda salsa)、盐蒿(Artemisia halodendron)、灰绿灰藜(Chenopodium glaucum Linn.); 大于4 km处为轻度盐渍化土壤和非盐土,以芦苇(Phragmites australis)、茵陈蒿(Artemisia halodendron)、马齿苋(Portulaca oleracea Linn.)和大豆(Glycine max Linn)。(2)滨海盐土受海水影响,土壤有机质、全氮速效磷、速效钾含量高于其他盐渍化土壤和非盐土。(3)土壤全磷、全钾含量受盐分影响较小,全磷含量为1.09~1.51 g·kg-1,全钾含量为8.4~9.6 g·kg-1。(4)不同盐渍化土壤微生物生物量碳含量差异不显著。(5)随盐渍化程度降低,微生物熵呈上升趋势,但在轻度、中度、重度盐渍化土壤中反应不明显。(6)盐分抑制土壤脲酶、蔗糖酶、过氧化物酶活性,碱性磷酸酶活性在中度盐渍化土壤达到最低。综合以上,盐渍化程度不同,土壤养分、微生物生物量、酶活性的变化趋势不同。去除海水对盐土的影响,盐分对不同盐渍化土壤特性的影响主要体现为抑制作用。相较于微生物生物量碳,微生物熵更能反应微生物量的变化。 相似文献
9.
有机物料添加后滨海盐渍土壤溶解性有机碳变化 及其紫外-可见光谱特征 总被引:1,自引:0,他引:1
利用紫外-可见光谱技术研究不同盐分水平(低盐、高盐)土壤中添加不同有机物料后土壤DOC的紫外-可见光(UV-Vis)光谱特征变化,探究盐渍土壤碳库的稳定性.结果显示,添加有机物料能显著增加DOC含量,与生物炭和有机肥相比,秸秆处理后的土壤DOC含量更高.在200~800 nm波长范围内,两种盐分土壤DOC溶液的吸光值随着波长增加均呈降低趋势,在230~280 nm内出现吸收平台.低盐土壤,DOC含量和紫外-可见光谱特征区域面积积分比值均对应地高于高盐土壤的值,而A250/A365及A240/A420比值则低于高盐.相关性分析表明,土壤DOC含量与254 nm处吸光值呈显著线性相关(R2>0.9,P<0.05),用于表征DOC特征的紫外光谱特征参数之间的相关性在高盐、低盐土壤上并不完全一致.由此说明,有机物料处理后,低盐土壤的DOC腐殖化程度、芳香性、相对分子量和团聚化程度都对应的比高盐土壤的更高.在高盐土壤上,添加不同物料的土壤DOC各项紫外特征参数之间无显著差异;在低盐土壤上,秸秆处理后土壤DOC的芳香性及疏水性与其他处理有显著差异.DOC结构复杂且受环境影响较大,需要结合多种参数判断其结构特征. 相似文献
10.
四种生物炭对潮土土壤微生物群落结构的影响 总被引:3,自引:1,他引:2
为探究生物炭对土壤微生物群落结构的影响,以花生壳生物炭(PBC)、玉米秆生物炭(MBC)、杨木屑生物炭(ABC)和竹屑生物炭(BBC)为试验材料,每种生物炭分别以0、20.0、40.0、80.0、160.0 g·kg~(-1)的浓度添加到供试潮土中,经过45 d的室内培养后用磷脂脂肪酸(PLFAs)法分析土壤中微生物群落结构。研究结果表明:施用PBC、MBC和ABC对土壤总微生物总量、土壤细菌量有促进作用,但其增加幅度随生物炭浓度的升高呈现降低趋势,而添加BBC则会显著降低土壤微生物总量、土壤细菌量;PBC、MBC、ABC和BBC对土壤真菌细菌比有显著的促进作用;适量添加生物炭(20.0、40.0、80.0 g·kg~(-1))会增加真菌量,但大量(160 g·kg~(-1))添加PBC、BBC会显著降低真菌量。施入生物炭后,生物炭自身特殊理化性质和土壤理化性质如酸碱度、土壤电导率、比表面积、孔径等的变化是导致土壤微生物群落变化的主要原因;适量施加ABC、PBC相比于BBC、MBC更有利于潮土土壤微生物群落结构的发展。 相似文献
11.
研究秸秆覆盖和植被(田菁)覆盖条件下滨海盐土土壤水盐的动态变化规律,为沿海滩涂盐碱地脱盐改良提供依据。本研究以含盐量6.98 g·kg-1的滨海盐土为研究对象,设置秸秆覆盖和种植田菁2种覆盖处理,以裸地为对照,研究不同覆盖处理对滨海盐土土壤含水量和土壤盐分动态变化的影响。结果表明:秸秆覆盖下的土壤含水量(27.58%)显著高于田菁覆盖(26.70%)和裸地(26.61%),后两者差异未达显著水平。处理1年后0~20、20~40 cm土层的秸秆覆盖、田菁覆盖和裸地不同处理间土壤含盐量的差异均达显著或极显著水平;秸秆覆盖处理的脱盐率为田菁覆盖处理的2倍。回归分析表明裸地和田菁覆盖下土壤盐分含量与累积降雨量的关系可用二次多项式拟合,田菁覆盖下的淋洗方程(ECa/ECi与Dw/Ds间的关系)可用三次多项式拟合;而秸秆覆盖条件下土壤盐分含量与累积降雨量的关系、淋洗方程均表现为指数函数关系y=aebx(P<0.01)。秸秆覆盖条件下滨海滩涂0~40 cm土层脱盐80%需要386.8 mm的累积降雨量。结果表明秸秆和植被覆盖技术在江苏滨海盐土可获得较好的脱盐效果,具有较好的应用前景。 相似文献
12.
滨海盐碱地棉田盐度等级划分 总被引:4,自引:1,他引:3
我国植棉区内的滨海盐碱地主要呈带状分布在山东、河北、天津和苏北沿海低平原海岸地区,滨海盐碱地已成为我国重要的棉田生态类型。为满足盐碱地棉花生产发展的需要,本研究在参考前人研究与实践的基础上,基于盐碱地棉田土壤盐分的季节性变化、土壤盐分对棉花出苗、成苗和产量的影响,以春季(3月中下旬)0~20 cm表层土壤全盐含量为指标,将滨海盐碱地棉田划分为脱盐非盐碱地(0.10%)、轻度盐碱地(0.10%~0.25%)、中度盐碱地(0.25%~0.45%)和重度盐碱地(0.45%~0.80%)。各类盐碱地应根据盐度等级采取针对性成苗和管理技术措施,才能实现全苗壮苗和丰产丰收。 相似文献
13.
Spatial variability of soil properties in red soil and its implications for site-specific fertilizer management 下载免费PDF全文
下载免费PDF全文 SONG Fang-fang XU Ming-gang DUAN Ying-hua CAI Ze-jiang WEN Shi-lin CHEN Xian-ni SHI Wei-qi Gilles COLINET 《农业科学学报》2020,19(9):2313-2325
Assessing spatial variability and mapping of soil properties constitute important prerequisites for soil and crop management in agricultural areas. To explore the relationship between soil spatial variability and land management, 256 samples were randomly collected at two depths(surface layer 0–20 cm and subsurface layer 20–40 cm) under different land use types and soil parent materials in Yujiang County, Jiangxi Province, a red soil region of China. The pH, soil organic matter(SOM), total nitrogen(TN), cation exchange capacity(CEC), and base saturation(BS) of the soil samples were examined and mapped. The results indicated that soils in Yujiang were acidified, with an average pH of 4.87(4.03–6.46) in the surface layer and 4.99(4.03–6.24) in the subsurface layer. SOM and TN were significantly higher in the surface layer(27.6 and 1.50 g kg~(–1), respectively) than in the subsurface layer(12.1 and 0.70 g kg~(–1), respectively), while both CEC and BS were low(9.0 and 8.0 cmol kg~(–1), 29 and 38% for surface and subsurface layers, respectively). Paddy soil had higher pH(mean 4.99) than upland and forest soils, while soil derived from river alluvial deposits(RAD) had higher pH(mean 5.05) than the other three parent materials in both layers. Geostatistical analysis revealed that the best fit models were exponential for pH and TN, and spherical for BS in both layers, while spherical and Gaussian were the best fitted for SOM and CEC in the surface and subsurface layers. Spatial dependency varied from weak to strong for the different soil properties in both soil layers. The maps produced by selecting the best predictive variables showed that SOM, TN, and CEC had moderate levels in most parts of the study area. This study highlights the importance of site-specific agricultural management and suggests guidelines for appropriate land management decisions. 相似文献
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为明确在苏北沿海滩涂上种植甘薯对土壤环境的影响,在3个盐分梯度的盐碱土上进行甘薯栽培试验,研究甘薯在不同盐分土壤下生长性状的差异以及甘薯种植对土壤盐分、养分、土壤微生物碳含量的影响。结果表明,随着土壤盐分的增加,甘薯生长受到抑制,但在2.0~3.1 g·kg-1土壤盐分水平下,甘薯生长性状与1.0~2.0 g·kg-1盐分下差异不显著,说明甘薯具有一定的耐盐性。在3.1~4.8 g·kg-1土壤盐分下甘薯各项生长指标显著下降,说明甘薯已受到严重的盐胁迫。随着甘薯生长进程,土壤盐分呈现逐渐下降的趋势,1.0~2.0、2.0~3.1 g·kg-1盐分的土壤的呼吸强度呈现先上升后下降的趋势,但在甘薯收获后,其土壤呼吸强度依然高于甘薯种植前。在甘薯生长期内,土壤全氮含量以及有机质含量先升后降,土壤全钾含量先降后升。土壤盐分越大,土壤微生物碳含量越低,随着甘薯生长进程,1.0~2.0、2.0~3.1 g·kg-1土壤盐分下,土壤微生物碳含量呈现逐渐增加的趋势。由此可见,甘薯具有一定的耐盐性。在苏北沿海滩涂上种植甘薯可降低土壤盐分,促进微生物繁殖,提高土壤养分,尤以对盐分含量为1.0~2.0、2.0~3.1 g·kg-1的盐碱地的生态环境的改善效果较好。 相似文献
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根据定位观测数据,对海南文昌滨海台地3种典型森林(椰子林、相思林和木麻黄林)土壤微生物的数量特征及其与土壤因子的相互关系进行研究。结果表明,滨海台地3种森林类型中,微生物总量表现为椰子林相思林木麻黄林;细菌数量以椰子林土壤最高(3 144.67×10~4 CFU·g~(-1)),分别为相思林、木麻黄林的1.99倍和2.56倍;真菌数量以相思林最高(46.12×10~4 CFU·g~(-1)),分别为椰子林、木麻黄林的2.61和1.37倍;放线菌数量以椰子林最高(413.84×10~4 CFU·g~(-1)),分别为相思林、木麻黄林的3.32和1.42倍。不同森林类型土壤微生物三大类群数量,以细菌所占比例最大,放线菌次之,真菌最小。除椰子林真菌数量外,3种森林类型土壤微生物总数、细菌、真菌及放线菌数量均随土层深度的增加而减少,与土层深度呈线性负相关。土壤微生物数量与土壤养分含量之间存在着不同程度的相关关系,椰子林中,土壤全氮和有机碳是影响微生物数量的主要土壤因子;相思林中,全氮和pH值是影响微生物数量的主要因子;木麻黄林中,全氮和全磷是影响微生物数量的主要因子。 相似文献
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为研究纳米银在土壤中的微生物毒性,采用室内培养方式,探究纳米银(0、10、50、100 mg·kg~(-1))对4种不同性质土壤中微生物数量、多样性、呼吸作用及酶活性的影响。结果显示,低剂量(10 mg·kg~(-1))纳米银对土壤微生物影响较小,中高剂量(50、100 mg·kg~(-1))纳米银处理下土壤可培养微生物数量显著降低。随着纳米银剂量的增加,黄褐土酸杆菌门(Acidobacteria)、放线菌门(Actinobacteria)、蓝菌门(Cyanobacteria)、硝化螺旋菌门(Nitrospirae)、厚壁菌门(Firmicutes)群落丰度显著下降;变形菌门(Proteobacteria)、浮霉菌门(Planctomycetes)群落丰度显著增加。纳米银处理土壤呼吸作用减弱,土壤脲酶、蔗糖酶活性显著抑制,而荧光素二乙酸酯酶(FDA酶)、过氧化氢酶活性受纳米银剂量影响没有显著变化。同剂量纳米银处理下黄褐土、砖红壤中微生物性状因子对纳米银的响应强于水稻土和黄棕壤。多变量主成分分析显示,纳米银对真菌、FDA酶、过氧化氢酶的抑制与土壤有机质、砂粒含量正相关,对脲酶、蔗糖酶、呼吸作用的抑制与土壤pH值、阳离子交换量(CEC)正相关。综上分析,纳米银进入土壤后会对土壤微生物产生毒性作用,抑制微生物的生长繁殖,但不同门类微生物对纳米银的敏感程度不同,且纳米银的毒性受土壤性质的影响。 相似文献
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了解葡萄种植集聚区土壤肥力特征是有效制定土壤与精准施肥管理措施的重要前提。本研究选取苏北灌南县为研究对象,对55家设施葡萄园非施肥区和施肥区土壤主要肥力指标进行了测定,运用主成分分析与隶属度函数相结合的模糊综合评价法,对土壤肥力特征进行了综合分析与评价。结果表明,葡萄园施肥区土壤综合肥力整体处于较高水平,其中有机质和全氮的指标权重最大,分别为18.98%和18.02%,是影响葡萄园土壤肥力的关键因子。与非施肥区土壤相比,施肥区有14.55%和10.91%的土壤分别存在有机质和全氮含量降低现象。研究区土壤pH均呈碱性,是限制土壤肥力的主要因子。葡萄园本底有效磷含量普遍偏低,均值为19.51 mg·kg-1,而速效钾、交换性钙、交换性镁含量均处于较高水平,均值分别为364.55、12 346.52 mg·kg-1和816.66 mg·kg-1。施肥区土壤有效磷含量处于较高水平,均值为69.87 mg·kg-1,但仍有20.00%的土壤有效磷含量处于中等及以下水平。研究表明,苏北设施葡萄园应注重土壤酸碱度的调节及磷肥的适量补充,控制钾、钙、镁肥的投入,合理增施有机肥。 相似文献
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滨海盐渍区土壤盐分遥感反演及动态监测 总被引:1,自引:0,他引:1
为探索快速提取滨海盐渍土信息的有效方法,实现对滨海盐渍区土壤盐分含量变化趋势的分析,本研究以黄河三角洲垦利区作为研究区,采用野外实测土壤盐分数据与遥感影像相结合的方法,通过土壤盐分敏感波段和光谱参量的筛选,构建土壤盐分估测模型;优选出最佳模型用于反演,并结合土壤盐分含量指数、土壤盐分动态度和重心向量模型3个指标对研究区土壤盐分含量动态变化进行统计和分析。结果显示:土壤盐分的敏感波段为绿光、红光和近红外波段;波段组合可以提高其与盐分的相关性,运用敏感波段与波段组合相结合的方法建模更优;土壤盐分最佳估测模型为:Y=-6.94-281.762Bnir+60.625Bg×Br+1 178.14Bg×Bnir-152.396Br×Bnir-1 495.491Bg×Br×Bnir,建模精度和验证精度分别为0.878和0.854,说明模型拟合度好,预测能力强,具有可行性。2001-2005年、2005-2009年和2009-2015年3个时段,研究区土壤盐渍化程度的变化趋势表现为加重-减轻-减轻趋势,盐化重心总体向东部沿海方向迁移,各时段土壤盐渍化变化程度较高。本研究提出了利用卫星遥感影像对土壤盐分含量进行预测和动态监测的快捷方法,对滨海盐渍土地资源的利用管理有积极意义。 相似文献
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以艾比湖湿地不同样点芦苇生长的土壤为研究对象,对土壤中盐分、可溶性离子、pH值以及速效养分指标进行测定。结果表明:芦苇适生土壤中,总盐分布呈现出较强的表聚性并且均值不大于10 g·kg-1,总盐与HCO3-具有显著相关性;阳离子中K++Na+含量最多,阴离子则为HCO3-含量最多;养分含量中水解氮和速效磷丰富;土壤pH值变幅在8.28~8.46之间。研究结果说明艾比湖湿地芦苇生长的土壤盐分含量高、养分含量低,以碱性土壤为主。 相似文献
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Yan GUO Yin ZHOU Lian-qing ZHOU Ting LIU Lai-gang WANG Yong-zheng CHENG Jia HE Guo-qing ZHENG 《农业科学学报》2019,18(2):340-349
Over the past five decades, increased pressure caused by the rapidly growing population has resulted in a reclamation of agricultural and urban buffer zones along China's coastline. However, information about the spatio–temporal variation of soil salinity in these reclaimed regions is limited. As such, obtaining this information is crucial for mapping the variation in saline areas and to identify suitable salinity management strategies. In this study, we employed EM38 data to conduct digital soil mapping of spatio–temporal variation and map these variations of different site-specific zones. The results indicated that the distribution of soil salinity was heterogeneous in the middle of, and that the leaching of salts was significant at the edges of, the study field. Afterwards, fuzzy-k means algorithm was used to divide the site-specific management zones within the time series apparent soil electrical conductivity(ECa) data and the spatial correlations of variation. We concluded that two management zones are optimal to guide precision management. Zone A had an average salinity level of about 165 mS m–1, in which salt-tolerant crops, such as cotton and barley can grow normally, while crops such as soybean and cowpeas may be planted using leaching and increasing the mulching film methods to reduce the accumulation of salt in surface soil. In Zone B, there was a low salinity level with a mean of 89 mS m–1 for ECa, which allows for rice, wheat, and a wide range of vegetables to be grown normally. In such situations, measures such as an optimized combination of irrigation and drainage, as well as soil amendment can be taken to adjust and control the salt content. Particularly, flattening the land with a large-scale machine was used to improve the ability of micro-topography to influence salt migration; rice and other dry, land crops were planted in rotation in combination with utilizing salt-leaching multiple times to speed up desalinization. 相似文献