共查询到19条相似文献,搜索用时 171 毫秒
1.
不同紫花苜蓿品种特性分析 总被引:10,自引:1,他引:9
2001-2002年在渭北旱塬麟游县对苜蓿王、阿尔冈金、WL-323、WL-323HQ、WL-323ML、WL-324、农宝、巨人、金皇后、西香、西河、会宁等12个国内外紫花苜蓿品种的生长特性和生态适应性进行了田间定位研究。结果表明,苜蓿王、阿尔冈金、wL-323ML、西香苜蓿产草量潜力较大,再生性强、综合性状好,适宜在当地大面积推广种植;地方品种会宁在产草量、再生性、直立性等方面均处于劣势。 相似文献
2.
在不同的播前底墒下,应用抗旱指数法、隶属函数法、模糊综合评判法研究了14个不同生态类型旱地冬小麦品种的抗旱性。结果表明,随着底墒的增加,旱地冬小麦产量和水分利用效率显著提高,相同底墒下品种之间产量与水分利用效率差异显著,不同生态型冬小麦对播前底墒的反应明显不同。抗旱指数法、隶属函数法、模糊综合评判法均能较好地评价旱地冬小麦的抗旱性,其评价结果基本一致。参试品种从来源分析,抗旱性表现为:甘肃陇东>山西地区>北京地区>渭北旱塬>黄淮地区。 相似文献
3.
不同地膜覆盖对渭北旱塬冬小麦生长及水分利用效率的影响 总被引:15,自引:0,他引:15
对陕西渭北旱塬区2种不同可降解膜和普通地膜覆盖种植冬小麦连续2年生长状况、水分利用效率及增产效果进行了研究。结果表明:渭北旱塬区生物降解膜和普通地膜覆盖栽培冬小麦株高、干物质积累量、产量及水分利用效率均显著(P0.05)高于常规露地栽培,并显著增加了冬小麦的成穗数,使穗粒数有一定的增加;连续2年增产幅度分别为6.45%和28.95%、7.52%和22.44%,2种覆盖间无显著差异;水分利用效率分别提高11.39%和35.02%、14.40%和12.96%,各覆膜处理0~200 cm土层贮水量较对照增加17.9~64.2 mm。普通地膜覆盖对冬小麦各生育阶段株高及干物质积累量促进作用较大,液体地膜由于易受到环境影响,其生理生态效应不能充分体现。覆盖生物降解膜蓄水保墒效果较好,水分利用效率提高到17.73 kg/(mm.hm2),而且能有效解决"白色污染"问题,表现出良好的经济效益和生态效益。 相似文献
4.
为探明不同冬小麦品种混种对产量和水分利用效率的影响。选用冬小麦西农979、小偃22、矮抗58和西农889,于2013—2014和2014—2015两年在西北农林科技大学斗口试验站开展田间试验,设置4个水平:单播(1L)、2个品种混种(2L)、3个品种混种(3L)和4个品种混种(4L),系统测定并比较不同混种水平群体生物量、子粒产量和农田土壤水分利用效率等。结果表明,灌浆期的混种群体光截获率、旗叶SPAD值、净光合速率和瞬时水分利用效率均显著大于单作群体。混种群体子粒产量和地上生物量均高于单作群体,子粒产量增幅随混种品种数量的增加逐渐降低,两年平均增幅为7.92%(2L)、7.15%(3L)和2.73%(4L),其中2L和3L达显著水平,地上生物量增幅随混种品种数量的增加逐渐升高,两年平均增幅为1.08%(2L)、4.78%(3L)和7.24%(4L),3L和4L达显著水平,通径分析表明混播下子粒产量的增加得益于单位面积穗数和穗粒数增加。混种增加了群体浅层土壤含水量和深层土壤中的根系分布,显著降低群体耗水量,并显著提高群体水分利用效率(WUE),子粒WUE两年平均提高11.93%(2L)、12.39%(3L)和8.72%(4L),地上干物质WUE两年平均提高3.3%(2L)、8.66%(3L)和11.75%(4L)。不同品种冬小麦混种可以提高水分利用效率,增加子粒产量。 相似文献
5.
水分胁迫下荒漠地区2种草本植物生物量分配策略 总被引:1,自引:0,他引:1
水分胁迫是荒漠地区生态系统结构和功能变化的主要驱动力。分析水分胁迫下,不同生长阶段荒漠植物生物量在地上-地下的分配比例,对精确估算地下有机碳存储量有重要的理论意义。通过盆栽控制实验,设置对照、中度和重度胁迫的水分梯度,选取荒漠地区2种草本植物涩荠(Malcolmia africana)和角果藜(Ceratocarpus arenarius),分析其生物量在地上-地下的分配比例变化。结果表明:无论水分胁迫存在与否,总生物量累积均符合Sigmoidal生长模型;水分胁迫对植株早期发育阶段总生物量的累积无明显影响,但显著减少了发育后期总生物量的累积;植株每生长10 d,涩荠和角果藜叶片占总生物量的比例分别减少8.9%~10.6%和3.1%~3.4%。几乎等同于茎所增加的比例。水分胁迫使得地下生物量显著增加,但总生物量的累积仍以地上部分为主;根冠比在整个生长过程中呈4个渐变的阶段。 相似文献
6.
冬小麦陕229在旱地不同施肥水平的水分利用效率研究 总被引:3,自引:0,他引:3
1992年-1995年,在渭北旱塬对冬小麦陕229进行了不同施肥水平条件下干物质累积和水分利用效率研究。结果表明,在一定的施肥范围内,小麦陕229对土训储水的利用程度和干物质累积随着施肥量的增加而提高。通过合理施肥可提高旱地小麦的水分利用效率。 相似文献
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8.
渭北旱塬小麦生产中需要克服的主要限制因子是水分不足,寻求合理的栽培措施以提高天然降水的利用率对于产量提高具有重要意义.本试验通过2a大田试验,研究了不同栽培措施对冬小麦产量及0~200 cm土层水分与硝态氮累积的影响.结果表明:(1)推荐施肥+垄上覆膜+沟内覆草(NP+ PF+ S)与推荐施肥+垄上覆膜(NP+ PF)两种垄沟栽培模式,虽然单位面积穗数明显降低,但由于穗粒数、千粒重显著高于其它栽培模式,因此产量和水分利用效率在所有模式中为最高.(2) NP+ PF+S和NP+ PF模式在小麦生育期内明显增加了土壤储水量,尤其在冬小麦易遭水分胁迫的时期(3-5月),其土层中储水量要明显高于其他模式.(3)土壤中硝态氮的累积主要集中在60cm以上,随着土壤深度的增加,累积量逐渐减少.在第二季,塬面冬小麦NP+ PF+S处理的硝态氮累积显著高于其它处理.在梯田,NP+S处理出现明显累积.由此可见,推荐施肥+垄沟栽培模式虽然促进土壤中氮素的累积,但是显著提高降水的有效贮蓄,是渭北旱塬区雨养农业条件下维持冬小麦高产的合理栽培模式. 相似文献
9.
干旱胁迫下不同玉米品种的耗水特性及其水分利用效率的差异 总被引:7,自引:1,他引:6
通过盆栽控水对12个玉米杂交品种的耗水量、生物学产量及其水分利用效率(WUE)进行测试,结果表明:12个品种的耗水量、干物质积累和WUE存在显著或极显著差异,其中郑单958、掖单13、陕单911这3个品种属于高水分利用效率、高产、耗水型品种;中单2号属于高水分利用效率、中产、中等耗水型品种;农大60、陕单902属于高水分利用效率、中产、节水型品种;户单1号、掖单19、沈单10号这3个品种属于中等水分利用效率,生物产量表现一般、节水型品种;户单4号、陕单9号和丹玉13这3个品种属于低水分利用效率、生物学产量较低、节水型品种。 相似文献
10.
耕作与施肥模式对渭北旱塬春玉米田蓄水保墒与玉米产量的影响 总被引:2,自引:0,他引:2
为揭示渭北旱塬春玉米田休闲期不同保护性耕作模式的蓄水保墒与增产增收效应,寻找适合渭北旱塬春玉米田水肥高效利用的耕作方式和施肥水平,于2013—2014年度在陕西省合阳县甘井镇春玉米田分别设置传统农户模式(翻耕+低肥,S1)、现有高效模式(免耕+高肥,S2)、创新高效模式(深松+平衡施肥,S3)等模式处理,研究各类耕作与施肥相结合保护性耕作模式下春玉米水分利用率、产量和经济效益差异。结果表明,创新模式S3和现有模式S2较农户模式S1播前增加了土壤贮水量;创新模式S3和现有模式S2处理在玉米主要生育期0~200 cm土层平均土壤贮水量分别比农户模式S1增加23.3 mm和18.1 mm,水分利用效率分别提高12.3%和10%,产量增加11.1%、9.2%。创新模式和现有模式均较农户模式能够增加土壤贮水量,提高水分利用效率,增加产量和经济效益,但创新模式蓄水保墒,增产增收优势明显,是适合渭北旱塬地区春玉米生产的水肥管理模式。 相似文献
11.
甘肃陇东南紫花苜蓿土壤水分利用程度的评估研究 总被引:4,自引:0,他引:4
通过种植试验分析,用数理统计方法模拟了紫花苜蓿生物量累积过程及土壤水分消耗过程,揭示了紫花苜蓿的生物量累积特点及其土壤水分利用规律。发现1年生紫花苜蓿在开花期物质累积以地上为主,干物质上/下比可达2.92;开花以后逐渐以地下部分为主,到收刈期干物质上/下比为0.57。紫花苜蓿的田间贮水量小于粮食作物,耗水量大于粮食作物。紫花苜蓿的土壤利用率大于粮食作物,是小麦的2.1~2.8倍,玉米的2.0~2.5倍。 相似文献
12.
以20个苜蓿(Medicago sativa L.)品种为材料,研究其对苜蓿炭疽病(Colletotrichum truncatum)的抗性。通过对不同苜蓿品种抗苜蓿炭疽病的室内鉴定,以苜蓿的病叶量作为测定指标并对数据进行聚类分析。结果表明,不同品种抗苜蓿炭疽病能力的强弱不同,通过聚类分析将供试品种划分为4个类群,以ProINTA Patricia和Victoria SPI对苜蓿炭疽病的抗性最好,Defi德福、Lobo路宝、Salado萨兰多、新疆大叶苜蓿和Travois的抗病性最差,其他品种呈中等抗性。 相似文献
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Amygdalus pedunculata Pall. is a major species that is widely planted in afforested soils with different textures in the transitional zone between Mu Us Desert and Loess Plateau, China. However, the responses of A. pedunculata to increasing intensity of water stress in different textural soils are not clear. Here, we conducted a soil column experiment to evaluate the effects of different textures (sandy and loamy) on water consumption, water use efficiency (WUE), biomass accumulation and ecological adaptability of A. pedunculata under increasing water stress, i.e., 90% (±5%) FC (field capacity), 75% (±5%) FC, 60% (±5%) FC, 45% (±5%) FC and 30% (±5%) FC in 2018. A. pedunculata grown in the sandy soil with the lowest (30% FC) and highest (90% FC) water contents had respectively 21.3%-37.0% and 4.4%-20.4% less transpiration than those with other water treatments (45%-75% FC). In contrast, A. pedunculata transpiration in the loamy soil decreased with decreasing water content. The magnitude of decrease in transpiration increased with increasing level of water deficit (45% and 30% FC). Mean daily and cumulative transpirations of the plant were significantly lower in the sandy soil than in the loamy soil under good water condition (90% FC), but the reverse was noted under water deficit treatments (45% and 30% FC). Plant height, stem diameter and total biomass initially increased with decreasing water content from 90% to 75% FC and then declined under severe water deficit conditions (45% and 30% FC) in the sandy soil. However, these plant parameters decreased with decreasing water content in the loamy soil. WUE in the sandy soil was 7.8%-12.3% higher than that in the loamy soil, which initially increased with decreasing water content from 90% to 75% FC and then declined under water deficit conditions (45% and 30% FC). The study showed that plant transpiration, biomass production and WUE responded differentially to increasing intensity of water stress in the sandy and loamy soils. The contrasting responses of A. pedunculata to water stress in different textural soils can guide future revegetation programs in the northern region of Chinese Loess Plateau by considering plant adaptability to varying soil and water conditions. 相似文献
14.
Luiz Henrique Saes Zobiole Rubem Silvério de Oliveira Jr. Jamil Constantin Antonio Saraiva Muniz 《Pesticide biochemistry and physiology》2010,97(3):182-193
Previous studies comparing cultivars of different maturity groups in different soils demonstrated that early maturity group cultivars were more sensitive to glyphosate injury than those of other maturity groups. In this work, we evaluated the effect of increasing rates of glyphosate on water absorption and photosynthetic parameters in early maturity group cultivar BRS 242 GR soybean. Plants were grown in a complete nutrient solution and subjected to a range of glyphosate rates either as a single or sequential leaf application. Net photosynthesis, transpiration rate, stomatal conductance, sub-stomatal CO2, carboxylation efficiency, fluorescence, maximal fluorescence and chlorophyll content were monitored right before and at different stages after herbicide application; water absorption was measured daily. All photosynthetic parameters were affected by glyphosate. Total water absorbed and biomass production by plants were also decreased as glyphosate rates increased, with the affect being more intense with a single full rate than half the rate applied in two sequential applications. Water use efficiency (WUE) was significantly reduced with increasing rates of glyphosate. 相似文献
15.
四个苜蓿品种无性系大田抗蓟马性能评价 总被引:3,自引:0,他引:3
本研究选用室内筛选的4个不同抗性级别的苜蓿品种(HA 3、Ta、M8和Ja)的无性系,以大田苜蓿地牛角花齿蓟马为虫源,任其自然受害,以喷药小区为对照,于现蕾期测定分析各品种无性系的受害指数、虫量、农艺性状和产量损失率,结果表明,7月和8月,4个苜蓿品种无性系的受害指数的排列顺序均为HA 3<Ta<M8<Ja,HA 3与Ja之间受害指数存在显著差异(p<0.05);受害指数与虫口密度之间无相关性;各无性系受害株的株高、茎粗、节间长、叶面积及干重均显著低于对照(p<0.05),但分枝数和节间数均显著高于对照(p<0.05),其中HA 3的各农艺性状表现均优于其他苜蓿品种,产量损失率也最低。苜蓿对蓟马的抗性主要表现为耐害性,其中HA 3的耐害性最强。 相似文献
16.
依托布设在黄土高原雨养农业区的长期田间定位试验,以玉米田为对照、不同种植年限紫花苜蓿地(L2003,L2005,L2012)土壤为研究对象,采用真菌ITS高通量测序技术探究不同种植年限苜蓿土壤真菌群落分布与演替特征,为黄土高原苜蓿人工草地的可持续利用提供微生物参数。结果表明:黄绵土共检测到真菌6门24纲73目156科313属,主要包括子囊菌门(Ascomycota)、接合菌门(Zygomycota)、担子菌门(Basidiomycota)。苜蓿土壤和农田土壤真菌群落结构差异显著,随苜蓿种植年限延长子囊菌门相对丰度先降低后升高,接合菌门和担子菌门相对丰度先升高后降低,表现为L2003子囊菌门相对丰度显著高于L2005处理12.42%(P0.05),接合菌门相对丰度显著低于L2005处理153.54%(P0.05)。农田土壤优势属为被孢霉属(Mortierella)、绿僵菌属(Metarhizium)和腐质霉属(Humicola),苜蓿土壤共有优势真菌属为刺孢属(Phaeomycocentrospora)、白僵菌属(Beauveria)和被孢霉属。农田土壤被孢霉属相对丰度显著高于苜蓿土壤62.38%~73.48%(P0.05),随着苜蓿种植年限的延长,土壤促生菌(白僵菌属和绿僵菌属)丰度下降,部分病原菌(镰刀菌属、赤霉菌属)丰度增加。主成分分析发现,丛赤壳属(Nectria)、土赤壳属(Ilyonectria)和镰刀菌属(Fusarium)与第一主成分(PC1)具有较高的相关性,Lectera菌属、支顶孢属(Acremonium)和赤霉菌属(Gibberella)与第二主成分具有较高相关性,与第一、第二主成分相关性较高的菌属均为植物病原菌。 相似文献
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围栏与不同放牧强度对东祁连山高寒草甸植被和土壤的影响 总被引:1,自引:0,他引:1
在东祁连山高寒草地,对围栏7年和不同放牧强度的草地进行了物种数、地上生物量、地下生物量、土壤理化性质等研究。结果表明,围栏7年的高寒草地鲜草产量为425.8 g·m-2,显著高于夏季中牧159.3 g·m-2和夏季重牧91.0 g·m-2,但与冬季轻牧、夏季轻牧差异不显著。围栏条件下的物种数为26.3种·16 m-2,显著低于其他放牧条件下的物种数,但显著高于夏季重牧条件下的物种数23.0种·16 m-2;轻度或重度放牧都会使物种数减少,夏季中牧下的物种数最高(33.5种·16 m-2)。在0~10 cm的表层土壤中,围栏7年的草地根系生物量显著高于其他放牧强度。随着放牧强度的增加,根系生物量在0~10 cm土壤中呈下降趋势,在30~40 cm土壤中则表现为升高趋势。围栏7年的土壤容重低于其他放牧强度下的土壤容重,但差异不显著;夏季重牧的土壤容重显著高于围栏7年和其他放牧强度的土壤容重。随着放牧强度的增加,0~10 cm土壤碱解氮增加,围栏7年草地最低。围栏封育可有效改善和恢复草地植被,但不能长时间禁牧不进行放牧利用。合理的放牧能够维护高寒草甸草地生态系统功能、促进物种丰富度和土壤营养的均衡。 相似文献
18.
为研究内蒙古典型草原不同放牧强度植被反射光谱与植被参数和蝗虫密度的关系,使用地物波谱仪于2015年和2016年对5个放牧梯度,共20hm~2样地进行调查研究。结果表明,不同放牧强度植被地上总生物量与归一化植被指数(NDVI)关系为y=0.034 8+0.002 9x(R~2=0.645 5,P=0.000 2),蝗虫密度与NDVI线性关系为y=0.067+0.013x(R~2=0.415,P=0.006)。对其进行冗余分析(RDA)发现,植被地上总生物量、植物高度、糙隐子草生物量是蝗虫数量和NDVI变化的主要影响因子,其中植被地上总生物量是显著性影响因子(P=0.001)。在不同放牧强度下蝗虫密度与草地NDVI显著相关(P0.05),随NDVI增大而增多。本文研究结果为进一步开展放牧区蝗灾遥感监测和科学合理地利用草地资源奠定了基础。 相似文献
19.
Canopy cover or remotely sensed vegetation index,explanatory variables of above-ground biomass in an arid rangeland,Iran 总被引:1,自引:0,他引:1
Estimation of above-ground biomass is vital for understanding ecological processes. Since direct measurement of above-ground biomass is destructive, time consuming and labor intensive, canopy cover can be considered as a predictor if a significant correlation between the two variables exists. In this study, relationship between canopy cover and above-ground biomass was investigated by a general linear regression model. To do so, canopy cover and above-ground biomass were measured at 5 sub-life forms(defined as life forms grouped in the same height classes) using 380 quadrats, which is systematic-randomly laid out along a 10-km transect, during four sampling periods(May, June, August, and September) in an arid rangeland of Marjan, Iran. To reveal whether obtained canopy cover and above-ground biomass of different sampling periods can be lumped together or not, we applied a general linear model(GLM). In this model, above-ground biomass was considered as a dependent or response variable, canopy cover as an independent covariate or predictor factor and sub-life forms as well as sampling periods as fixed factors. Moreover, we compared the estimated above-ground biomass derived from remotely sensed images of Landsat-8 using NDVI(normalized difference vegetation index), after finding the best regression line between predictor(measured canopy cover in the field) and response variable(above-ground biomass) to test the robustness of the induced model. Results show that above-ground biomass(response variable) of all vegetative forms and periods can be accurately predicted by canopy cover(predictor), although sub-life forms and sampling periods significantly affect the results. The best regression fit was found for short forbs in September and shrubs in May, June and August with R~2 values of 0.96, 0.93 and 0.91, respectively, whilst the least significant was found for short grasses in June, tall grasses in August and tall forbs in June with R~2 values of 0.71, 0.73 and 0.75, respectively. Even though the estimated above-ground biomass by NDVI is also convincing(R~2=0.57), the canopy cover is a more reliable predictor of above-ground biomass due to the higher R~2 values(from 0.75 to 0.96). We conclude that canopy cover can be regarded as a reliable predictor of above-ground biomass if sub-life forms and sampling periods(during growing season) are taken into account. Since,(1) plant canopy cover is not distinguishable by remotely sensed images at the sub-life form level, especially in sparse vegetation of arid and semi-arid regions, and(2) remotely sensed-based prediction of above-ground biomass shows a less significant relationship(R~2=0.57) than that of canopy cover(R~2 ranging from 0.75 to 0.96), which suggests estimating of plant biomass by canopy cover instead of cut and weighting method is highly recommended. Furthermore, this fast, nondestructive and robust method that does not endanger rare species, gives a trustworthy prediction of above-ground biomass in arid rangelands. 相似文献