共查询到20条相似文献,搜索用时 31 毫秒
1.
V. Bala Subramanian S. Venkateswarlu M. Maheswari M. Narayana Reddy 《Journal of Agronomy and Crop Science》1993,171(5):336-342
Besides assimilation, plant water relations are important aspects of physiological basis of productivity of crops in water limited environment. The relationships of photosynthesis rate, transpiration rate, leaf water potential and stomatal conductance with photosynthetically active radiation (PAR) and vapour pressure deficit (VPD) during pre-flowering (panicle initiation to ear emergence) and grain filling (from anthesis to maturity) stages of a sorghum hybrid (cv. CSH-6 ) grown under rainfed conditions were studied. Photosynthesis rate declined when PAR was above 1300 μmol m−2 s−1 . during both the growth stages. Higher transpiration rate during grain filling stage at higher PAR caused the transpiration efficiency to be lower than during pre-flowering stage when PAR was above 1200 μmol m−2 s−1 .Leaf water potential and stomatal conductance decreased with increase in PAR. Leaf water potential was higher during pre-flowering than during grain filling stage but maximum photosynthesis rate was similar during both the growth stages. Changes in VPD did not qualitatively alter the relationships of the physiological variables with PAR.
Decreasing photosynthesis rate and LWP at high PAR suggest that photosynthesis rate was limited by low leaf water potential when PAR was optimal, and by low PAR even when leaf water potential was high in rainfed sorghum during rainy season. 相似文献
Decreasing photosynthesis rate and LWP at high PAR suggest that photosynthesis rate was limited by low leaf water potential when PAR was optimal, and by low PAR even when leaf water potential was high in rainfed sorghum during rainy season. 相似文献
2.
The important enzyme in nitrogen (N) assimilation, nitrate reductase (NR), is an inducible enzyme influenced by many external (light, temperature, etc.) and internal (genotype) factors. The efficiency of the N assimilation system may vary with genotype and season. In the present study, the effects of season on NR activity in relation to N accumulation in maize plants were investigated. Six different cultivars of maize, namely Ganga-11, Deccan-103, Hi-starch (hybrids), Arun, Manjari and Vijay (composites), were sown during the monsoon (88-day crop duration) and in winter (150-day crop duration). In vivo NR activity in the last fully expanded leaf (LFEL), and the N contents of the whole plant and the LFEL were estimated at seven phenological growth stages. Three different states of N metabolism in maize, namely (i) low NR activity per unit leaf area per unit time coinciding with high accumulation of N, (ii) high NR activity coinciding with low N accumulation, and (iii) low NR activity coinciding with low N accumulation, were noted. These results clearly demonstrate that the relationships between N uptake and accumulation parameters change with the season and crop growth stage and are subject to a genotypic influence. Thus it is necessary to evaluate genotypes under similar environments to select a genotype with high N use efficiency. As these relationships are growth dependent, care must be taken to evaluate them at a particular phenological stage rather than on the basis of days after sowing. 相似文献
3.
The Effect of Intercropping Lablab purpureus L. with Sorghum on Yield and Chemical Composition of Fodder 总被引:1,自引:0,他引:1
Y. Shehu W. S. Alhassan U. R. Pal C. J. C. Phillips 《Journal of Agronomy and Crop Science》1999,183(2):73-79
In two years the growth and composition of mixtures of sorghum with Lablab purpureus as strips, paired rows and alternate rows were compared with those of sorghum and lablab monocrops. In the first year, when sowing did not occur until 7 August, the sorghum yields were low in the monocrop and even less in the mixed crops. Lablab yield was also reduced in mixtures compared with the monocrop, but total forage yield was greater for the mixed crops compared with sorghum alone. Of the mixed cropping systems, a reduction in the yield of lablab plants and in the phosphorus and potassium content of shed lablab leaves in paired rows suggested that there was more competition for nutrients between lablab plants grown in this treatment. In the second year, earlier sowing increased sorghum growth at the expense of lablab yield in the mixed cropping systems, with the result that total forage yield was not increased when sorghum was intercropped with lablab. However, the crude protein content of sorghum stems and leaf yield were increased in mixed crops, particularly in paired and alternate rows rather than strips, demonstrating that close configuration of the legume and cereal are necessary for the cereal to obtain most benefit from nitrogen fixed by the legume. It is concluded that, when conditions are favourable for rapid sorghum and lablab growth, the sorghum will benefit more when it is grown in paired rows with lablab rather than in strips. However, the close spacing normally adopted for paired rows may encourage competition between lablab plants and increase the requirements for phosphorus and potassium fertilizer. 相似文献
4.
双季糯高粱间作大豆田间配置方式优化 总被引:1,自引:1,他引:0
为了减轻双季糯高粱连作障碍,优化双季糯高粱、大豆田间配置结构,提高两季作物产量效益,以常规双季糯高粱‘国窖红1 号’、‘南豆12’为试验材料,研究不同田间配置方式对糯高粱、大豆复合种植、净作模式下产量、效益的影响。结果表明:复种模式下作物总产量、总产值均高于双季糯高粱、大豆净作模式,头季糯高粱产量、千粒重、穗粒重和穗长随厢宽的增加而降低,再生季糯高粱、大豆表现为先增后减的趋势;双季糯高粱总产量最高的为1.7 m开厢处理,达8352.9 kg/hm2,大豆产量最高为1.8 m开厢处理,达1888.95 kg/hm2,两作物总产值、净收益以1.7 m 开厢处理最高,分别为47293.92 kg/hm2、29976.42 kg/hm2,其次为1.8 m开厢处理,以上两处理为最优田间配置方式。产投比以净作双季糯高粱最大,净作大豆最低。 相似文献
5.
干旱胁迫对玉米品种苗期叶片光合特性的影响 总被引:2,自引:0,他引:2
维持较高的光合作用对于作物适应干旱逆境意义重大,光合电子传递和气孔行为是作物光合机构的重要组成部分,而玉米上有关它们之间的组合响应干旱胁迫研究报道较少。本文将2个主推玉米品种陕单609和郑单958生长在自然光和4个干旱胁迫下的干旱棚内,对其叶片的光系统II(PSII)的电子传递功能和气孔导度进行了研究。结果显示,中度和重度干旱胁迫下2个品种叶片净光合速率(Pn)和气孔导度(Gs)显著下降,而伴随着胞间CO2浓度(Ci)上升,显示光合速率下降是非气孔因素所致。JIP-test分析发现干旱胁迫下2个品种叶绿素荧光诱导动力曲线(OJIP)中出现了K-band,说明光系统II(PSII)放氧复合体(OEC)受到抑制和PSII供体侧与受体侧电子传递不平衡;同时干旱胁迫下反映从PSII供体侧到PSI末端受体电子流的荧光参数显著改变,损伤了光系统II和I之间光合电子传递链,限制CO2同化。品种间光合特性对干旱胁迫的响应存在差异,重度干旱对郑单958叶片光合机构的影响比对品种陕单609大。以上结果表明,中度和重度干旱下玉米品种叶片Pn下降归属于光化学活性的衰退;陕单609光合机构的耐旱性强于郑单958。 相似文献
6.
A three years' trial was conducted in a farmers' field in northern Ghana to evaluate the effect of sole crops (cotton, cowpea, groundnut, soybean, and sunflower) planted once or twice on yield of the staple foods of the region, maize and sorghum. Sole cropping for only one year already resulted in significant yield increases for maize and partly for sorghum compared to the conventional cropping of mixed stands of maize–sorghum or maize–groundnut and natural fallow. Lowest yield of maize and sorghum was obtained where these cereals followed maize–sorghum (monoculture). Intercropping of maize with groundnut led to subsequent maize and sorghum yields which were similar to those obtained after maize–sorghum. After growing legumes and sunflower for one year the grain and straw yield of maize and sorghum was significantly higher in the two consecutive years than after cereal (maize–sorghum) monoculture. In this trial maize and sorghum were found to be not as tolerant to the disadvantages of monoculture or preceding cereals–legumes mixture. The results suggest that continuous intercropping with cereals under the given conditions has negative effects on soil fertility and can lead to an increase in soil-borne pests and troublesome weeds like Striga comparable to monocropped cereals. 相似文献
7.
Mid‐season drought is a factor frequently limiting crop production in the moist to dry savannah zones of the tropical and subtropical regions of the world. Ten cowpea genotypes were subjected to a cycle of drought at flowering followed by re‐watering to study variation in drought performance and recovery. Drought caused a reduction in leaf assimilation rate, transpiration rate and stomatal conductance with genotypic variances of 75.4, 57.9, and 83.3 %, respectively. Only genotypic variance in stomatal conductance increased appreciably under drought. Reductions in leaf water potential as a consequence of drought positively correlated with a decline in assimilation rate, which was associated with stomatal closure. One week after re‐watering, the three gas exchange parameters of stressed plants recovered fully and attained values 10–30 % higher than the well‐watered plants with increased genotypic variability. Reductions in the total dry matter during the drought interval varied from 11 to 50 % among genotypes, but were of minor importance for the total dry matter at maturity. After stress, the gain in dry matter varied considerably among the stressed genotypes, with stressed plants showing higher gain than the unstressed plants during this interval. This was associated with increased availability of assimilates due to enhanced green leaf area duration after stress release. Variability in drought recovery among genotypes was found, and appears to be more important for final yield than responses during drought. 相似文献
8.
长江中游不同玉稻种植模式产量及资源利用效率的比较研究 总被引:7,自引:0,他引:7
发展长江中游玉米生产是解决本区域玉米产需矛盾的根本途径。近年来随着长江中游玉米的快速发展,该地区出现了春玉米–晚稻、双季玉米和早稻–秋玉米等新型的一年两熟制种植模式,为探明其适应性和实用性,2013—2014年在湖北省武穴市设置了传统种植的双季稻(对照)、春玉米–晚稻、双季玉米和早稻–秋玉米共4种两熟制种植模式,分析比较其周年产量及光、温、水资源利用效率和经济效益。结果表明,春玉米–晚稻和双季玉米周年产量显著高于早稻–秋玉米和双季稻。与双季稻相比,春玉米–晚稻周年产量、光能生产效率、光能利用率、积温生产效率、水分利用率及经济效益分别提高18.3%、14.1%、23.4%、16.4%、37.2%和44.3%,双季玉米分别提高了13.5%、8.1%、26.1%、11.4%、88.8%和37.8%。春玉米其产量、积温生产效率、水分利用率及经济效益两年平均比早稻分别高出30.6%、29.5%、57.2%和96.1%,而秋玉米和晚稻之间产量无显著差异。不同玉稻模式周年产量差异主要源于第一季春玉米和早稻产量的差异。可见,春玉米–晚稻和双季玉米是适宜在长江中游推广的两熟制种植模式。 相似文献
9.
冬小麦–夏玉米与双季玉米种植模式产量及光温资源利用特征比较 总被引:3,自引:0,他引:3
优化传统冬小麦-夏玉米模式并探索新型种植模式是挖掘黄淮海区周年高产潜力,提高资源利用效率的重要途径。本研究以冬小麦-夏玉米传统种植模式为对照(CK),建立了冬小麦–夏玉米优化种植模式(T1)和双季玉米模式(T2),于2009—2012年在河南新乡进行田间试验,对其周年资源分配、产量及资源利用效率进行了比较。结果表明:(1)T1模式通过播/收期调整,协调了两季的光、温资源分配比例(0.7∶1.0和1.4∶1.0);T2模式两季积温基本为均等分配,光照资源分配比例为1.5∶1.0。(2)资源分配的变化引起了产量的变化。与CK比,T1模式周年产量平均增幅为7.8%,其产量的增加主要来自于夏玉米季,T1模式夏玉米季平均叶面积指数(MLAI)、生物量和产量均显著高于CK,且冬小麦晚播并未造成减产。双季玉米(T2)是"双C4作物"的新型种植模式,其第1季的MLAI、生物量和产量均显著高于CK和T1,第2季(除MLAI外)显著低于CK和T1。T2与T1周年产量差异不显著,但显著高于CK,平均增幅为9.2%。另外,T2模式周年日产量显著高于CK和T1,平均增幅分别为53.9%和46.2%。(3)T2模式周年光、温生产效率及籽粒光能利用效率显著高于CK和T1,平均增幅分别为30.5%和23.3%,15.5%和9.7%,30.3%和23.0%。综上所述,T1和T2高产高效模式建立的核心均是充分利用C4作物玉米高物质生产能力的优势,二者的建立为黄淮海区周年产量潜力的挖掘及种植结构调整提供了思路。 相似文献
10.
In drought‐prone environments, sweet sorghum and sorghum‐sudangrass hybrids are considered worthy alternatives to maize for biogas production. The biomass productivity of the three crops was compared by growing them side‐by‐side in a rain‐out shelter under different levels of plant available soil water (PASW) during the growing periods of 2008 to 2010 at Braunschweig, Germany. All crops were established under high levels of soil water. Thereafter, the crops either remained at the wet level (60–80 % PASW) or were subjected to moderate (40–50 % PASW) and severe drought stress (15–25 % PASW). While the above‐ground dry weight (ADW) of sweet sorghum and maize was insignificantly different under well‐watered conditions, sweet sorghum under severe drought stress produced 27 % more ADW than maize. The ADW of sorghum‐sudangrass hybrids significantly lagged behind sweet sorghum at all levels of water supply. The three crops differed markedly in their susceptibility to water shortage. Severe drought stress reduced the ADW of maize by 51 %, but only by 37 % for sweet sorghum and 35 % for sorghum‐sudangrass hybrids. The post‐harvest root dry weight (RDW) in the 0–100 cm soil layer for maize, sweet sorghum and sorghum‐sudangrass hybrids averaged 4.4, 6.1 and 2.9 t ha?1 under wet and 1.9, 5.7 and 2.4 t ha?1 under severe drought stress. Under these most dry conditions, the sorghum crops had relatively higher RDW and root length density (RLD) in the deeper soil layers than maize. The subsoil RDW proportion (20–100 vs. 0–20 cm) for maize, sweet sorghum and sorghum‐sudangrass hybrids amounted to 6 %, 10 % and 20 %. The higher ADM of sweet sorghum compared with maize under dry conditions is most likely attributable to the deep root penetration and high proportion of roots in the subsoil, which confers the sorghum crop a high water uptake capacity. 相似文献
11.
灌溉春玉米大喇叭口期光合特性及水分利用效率研究 总被引:3,自引:2,他引:1
为了寻求在气候变化过程中保持作物产量不断增长,提高作物水分利用效率的地面灌溉节水与生物节水综合配套技术。通过分期播种和不同灌溉方式对大田春玉米进行试验,采用LI-6400便携式光合仪测定了石羊河流域灌溉区环境因子和春玉米大喇叭口期叶片光合生理指标和水分利用效率,分析了不同播期和不同灌溉方式对春玉米光合参数和水分利用效率的影响。结果表明:滴灌、喷灌和漫灌3种灌溉方式中滴灌最有利于提高春玉米叶片的净光合速率(提高10%~21%)、气孔导度(提高33%~43%)和作物水分利用效率(提高12%~20%)。方差分析表明,不同播期对春玉米叶片净光合速率、气孔导度和水分利用效率影响较小,但第二播期的净光合速率较第一、三播期提高10%~20%、蒸腾速率提高20%~28%、气孔导度提高20%~28%。通过显著性相关分析,空气温度、大气CO2浓度和光合有效辐射是影响滴灌叶片光合参数的主要环境因子,相关系数达0.810~0.986(P<0.05)。光合有效辐射和大气CO2浓度是影响喷灌叶片光合参数的主要环境因子,相关系数达0.850~0.980(P<0.05)。空气湿度、温度和大气CO2浓度是影响漫灌光合参数和水分利用效率的主要环境因子,相关系数达0.969~0.989(P<0.05)。滴灌也是最适宜于干旱区的抗旱、节水、节肥和增产的灌溉方式,3个播期中第二播期(4月20日“谷雨”前后)是当地最适宜于地膜春玉米播种的时期。 相似文献
12.
稳定性碳同位素在揭示环境变化中的应用 总被引:1,自引:0,他引:1
植物组织中的稳定性碳同位素组成(d13C)整合记录了气候因子和影响植物碳同化以及气孔导度的生理因子的相关信息。应用稳定碳同位素技术可以揭示环境变化中的一些相关信息。本文回顾了不同的环境因子和植物d13C的关系,以及这些关系在气候变化研究中的应用,同时进一步讨论了这项技术在重建历史气候和预测未来气候变化中的作用。 相似文献
13.
水稻、大豆、玉米光合速率的日变化及其对光强响应的滞后效应 总被引:7,自引:0,他引:7
用LI-6400光合测定系统对水稻、大豆和玉米3种作物在不同生育时期叶片光合速率的日变化规律进行了研究。结果表明:在各个生育时期,C3作物(水稻、大豆)叶片的光合作用均存在午休现象。而午休现象的产生是气孔因素与非气孔因素共同作用的结果。其中“气孔因素”是高温加剧蒸腾作用,气孔对蒸腾作用的反馈抑制造成的。C3作物(水稻、大豆)叶片的光合速率对光强的响应在上午和下午存在明显差异,上午利用光能的能力明显大于下午。这主要表现在上午的表观初始量子效率比下午大。光合产物对光合作用的反馈抑制会造成这种量子效率的差异性。无论是气孔限制还是光合产物反馈抑制都可能是导致光合速率对光强响应产生“滞后效应”的主要原因。C4作物(玉米)的午休现象不明显,光合速率对光强的响应在上午和下午的差异也不明显,不存在明显的“滞后效应”,这可能与C4作物(玉米)自身的生理特性适应高温的能力有关。 相似文献
14.
A field experiment was conducted on deep vertisols of Bhopal, India to study the effects of three levels of nitrogen (N), namely 0, 75 and 100 % of the recommended dose of nitrogen (RDN), on the dry matter accumulation (DMA) and productivity of three cropping systems (sole soybean, sole sorghum and soybean + sorghum intercropping) during the rainy season and their residual effect on the subsequent wheat crop during the post-rainy season. During the rainy season, sole sorghum was found to have significantly higher DMA and productivity in terms of soybean equivalent yield (SEY) than sole soybean or soybean + sorghum intercropping. Increasing the N dose from 0 to 100 % RDN significantly improved the DMA and SEY. At a low fertility level (N0 ), soybean + sorghum intercropping was found to be more productive, while at a high fertility level (100 % RDN), sole sorghum was more productive than the other two cropping systems. However, during the post-rainy season, sole soybean as the preceding crop gave the highest DMA and seed yield of wheat, which were similar to those found with soybean + sorghum intercropping. Sorghum followed by wheat gave the lowest DMA and seed yield of wheat. Application of 100 % RDN irrespective of cropping system during the preceding crop improved the DMA of wheat but not its seed yield. However, N applied to the wheat crop significantly increased its DMA and seed yield. 相似文献
15.
V. O. Mogensen C. R. Jensen G. Mortensen M. N. Andersen J. K. Schjoerring J. H. Thage J. Koribidis 《European Journal of Agronomy》1997,6(3-4):295-307
In rape (Brassica napus L., cv. Global) seed growth mainly depends on husk CO2 assimilation. In irrigated plants, the net photosynthetic rate (Amax) was 10–13 μmol CO2 m−2 s−1 in non-maturing pods and correlated with nitrogen content. The stomatal conductance of water vapour (gH2O) was 0.3 mol m−2 s−1 in non-maturing pods. The photosynthetic nitrogen use efficiency (NUE) was 8.3 μmol CO2g−1 N s−1, about one-third of that in leaves. The photosynthetic water use efficiency (WUE; AmaxgH2O−1) was similar in pods and leaves. In severely droughted plants, the photosynthetic rate was reduced to 38%. The seed growth rate, however, was not influenced by intermittent periods of water stress, indicating translocation of assimilates to the seeds. The drought resistant character of the pods was due to low specific area, succulence, low stomatal conductance causing a small decrease of ΔΨ day−1 during soil drying and maintenance of high relative water content during severe drought. A mathematical formulation of the pod water release curve was undertaken. © (1997) Elsevier Science B.V. 相似文献
16.
Chukiat Pradawet Nuttapon Khongdee Wanwisa Pansak Wolfram Spreer Thomas Hilger Georg Cadisch 《Journal of Agronomy and Crop Science》2023,209(1):56-70
Maize production in Thailand is increasingly suffering from drought periods along the cropping season. This creates the need for rapid and accurate methods to detect crop water stress to prevent yield loss. The study was, therefore, conducted to improve the efficacy of thermal imaging for assessing maize water stress and yield prediction. The experiment was carried out under controlled and field conditions in Phitsanulok, Thailand. Five treatments were applied, including (T1) fully irrigated treatment with 100% of crop water requirement (CWR) as control; (T2) early stress with 50% of CWR from 20 days after sowing (DAS) until anthesis and subsequent rewatering; (T3) sustained deficit at 50% of CWR from 20 DAS until harvest; (T4) late stress with 100% of CWR until anthesis and 50% of CWR after anthesis until harvest; (T5) late stress with 100% of CWR until anthesis and no irrigation after anthesis. Canopy temperature (FLIR), crop growth and soil moisture were measured at 5-day-intervals. Under controlled conditions, early water stress significantly reduced maize growth and yield. Water deficit after anthesis had no significant effect. A new combination of wet/dry sponge type reference surfaces was used for the determination of the Crop Water Stress Index (CWSI). There was a strong relationship between CWSI and stomatal conductance (R² = 0.90), with a CWSI of 0.35 being correlated to a 64%-yield loss. Assessing CWSI at 55 DAS, that is, at tasseling, under greenhouse conditions corresponded best to the final maize yield. This linear regression model validated well in both maize lowland (R² = 0.94) and maize upland fields (R² = 0.97) under the prevailing variety, soil and climate conditions. The results demonstrate that, using improved standardized references and data acquisition protocols, thermal imaging CWSI monitoring according to critical phenological stages enables yield prediction under drought stress. 相似文献
17.
In field trials on the Loess Plateau, China, in 2012–13, maize (Zea mays L.) and soybean (Glycine max L.) were sole cropped and intercropped at three densities and with three sowing proportions. Maize was generally more growth efficient for biomass accumulation than soybean during the entire growth interval, as assessed using the relative efficiency index (REIc). However, most of sowing proportion at each density displayed a trend of decreased growth with development. Throughout the growth period, the dry matter production and leaf area index (LAI) of maize increased as the plant density increased irrespective of whether it was grown as a sole crop or as an intercrop. However, the effect of increasing cropping density was less obvious for soybean. The LAI values of the sole crop treatment for both maize and soybean were greater than that of the intercropping system, indicating that the presence of maize and soybean together suppressed the respective growth of the two crops. At the final harvest, land equivalent ratios (LER) of 0.84–1.35 indicated resource complementarity in most of the studied intercrops. Complementarity was directly affected by changes in plant densities; the greatest LER were observed in 2 rows maize and 2 rows soybean intercrops at low density. The water equivalent ratio (WER), which characterized the efficiency of water resource use in intercropping, ranged from 0.84 to 1.68, indicating variability in the effect of intercropping on water-use efficiency (WUE). 相似文献
18.
Summary Five genotypes of Vicia faba L. with contrasting frequencies were grown in a controlled environment in soil moisture regimes of 100%, 78% and 61% of field capacity. Growth, water use and leaf conductance characteristics were measured. Stomata were more frequent on abaxial than adaxial surfaces, the abaxial/adaxial ratio ranging from 1.12 to 1.34. There were significant (P<0.001) correlations between calculated stomatal conductance, based on measurements of stomatal frequency and length, and leaf conductance measured with a diffusion porometer, in the two higher soil moisture treatments. In the 100% regime only, abaxial stomata opened wider than adaxial. Ranking of the genotypes for leaf conductance and plant transpiration was similar in all three regimes with large leaved types having the lowest conductance and greatest water use efficiency. Growing plants with reduced soil moisture availability improved water use efficiency, the ranking for which was also similar in all treatments. Relative growth rate and net assimilation rate were greatest with full watering, less in the 78% and least in the 61% regime. Leaf area ratio was less affected by available soil moisture and only in some genotypes. 相似文献
19.
Crop models have been widely used in simulating and predicting changes in rice phenology in the major rice production regions of China, however the uncertainties in simulating crop phenology at a large scale and from different models were rarely investigated. In the present study, five rice phenological models/modules (i.e., CERES-Rice, ORYZA2000, RCM, Beta Model, SIMRIW) were firstly calibrated and validated based on a large number of rice phenological observations across China during 1981–2009. The inner workings of the models, as well as the simulated phenological response to climate change/variability, were compared to determine if the models adequately handled climatic changes and climatic variability. Results showed these models simulated rice phenological development over a large area fairly well after calibration, although the relative performance of the models varied in different regions. The simulated changes in rice phenology were generally consistent when temperatures were below the optimum; however varied largely when temperatures were above the optimum. The simulated rice growing season under future climate scenarios was shortened by about 0.45–5.78 days; but in northeastern China, increased temperature variability may prolong the growing season of rice. We concluded more modeling and experimental studies should be conducted to accelerate understanding of rice phenology development under extreme temperatures. 相似文献
20.
为了探索陆地生态系统如何响应全球气候变化,基于植物物候遥感监测的原理和特点,笔者应用野外物候观测数据和植物物候遥感监测相结合的方法,采用中国国家气象局355个站点1951-2004年观测的相关资料,以及美国地球资源观测系统数据中心的探路者数据集中的NOAA/AVHRR NDVI数据,构建Logistic模型。将其应用于中国东部南北样带上以物候为指示的植被格局动态与气候变化研究之中,分析1982-2003年样带植被绿度期参量与降水相关关系。在全球气候变暖的情况下,植被绿度初期提前趋势明显,特别是在20世纪90年代中后期,平均绿度初期提前8天左右;样带北部温度升高、降水减少,特别是春季降水减少,会使温带荒漠地区荒漠化趋势加重。 相似文献