不同播期对黄秋葵长势、抗病性和产量的影响

为在河北省推广种植黄秋葵,在安国、保定、邯郸、衡水和石家庄5个试验点进行黄秋葵分期播种试验,研究了不同播期对石秋葵1号、红玉和五福3个品种生长势、抗病性和产量的影响。结果表明:播期对石秋葵1号、红玉和五福生长势、抗病性和产量具有较大的影响,随着播期的推迟,3个品种的茎粗大致呈逐渐增高的趋势,株高呈先降后升的趋势(除2018年的红玉外),单株结果数则先增加后减少,单果质量(除五福外)逐渐增大;以4月20日、25日和30日为播期,得到的黄秋葵单株产量和折合667 m~2产量较高。综合得出,河北省黄秋葵种植以4月20日、25日、30日为播期最为适宜。     

海南水稻生育期的时空变化特征及对气候变暖的响应

基于海南6个农业气象观测站点的水稻生育期资料和1961~2014年历史气象数据,分析了海南不同地区水稻生育期的时空分布特征,以及气候变暖对海南水稻生育期的影响。结果表明,近54 a海南水稻生长季内平均气温呈上升趋势,早稻气候倾向率为0.21~0.3℃/10 a,以苗期最为明显,晚稻为0.18~0.24℃/10 a,以成熟期最为明显。不同地区水稻生育期差异较大,东部地区早于西部地区,早稻播种时间最大相差55 d,早稻收获和晚稻播种最大间隔42 d,降水和高温可能是造成这一差异的主要原因。随着气候变暖,海南大部分地区早稻生育期提前,晚稻生育期延迟,苗期和成熟期持续时间缩短,与该阶段平均气温呈负相关,但全生育期持续时间变异较大,部分站点略有延长。在未来气候变暖背景下,海南早稻播期可适当提前,晚稻播期可适当延迟,并选用耐高温和抗干旱品种,以减轻高温的不利影响。     

基于CLIMEX和ArcGIS的灰茶尺蠖在中国的潜在适生区预测

基于中国820个气象站点数据、灰茶尺蠖已知地理分布资料和生物学数据,结合CLIMEX模型与ArcGIS软件模拟预测灰茶尺蠖在中国目前及未来的潜在分布范围,评估灰茶尺蠖的潜在分布范围及气候变暖对其分布的潜在影响。结果表明,灰茶尺蠖在中国目前的适生区主要分布在3°51′N~40°6′N,适生区面积占全国总面积的34.27%。中国大部分省份的气候条件均适合灰茶尺蠖种群生长。随着气候的变化,灰茶尺蠖在中国的潜在适生区面积总体增幅不大,但其组成变化较大。至2050年,预测灰茶尺蠖高度适生区面积占比达最大（22.23%）。相比各种能源之间的平衡情景（A1B）,较高能源需求情景（A2）下灰茶尺蠖在陕甘宁地区向内陆扩张更快。灰茶尺蠖在中国适生区分布广泛,应加强灰茶尺蠖预测预报,趁早采取防控措施,以保障茶叶优质安全生产。     

How does water and salt stress affect the germination and initial growth of Brazilian soya bean cultivars?

The effects of water and salt stress on rate of germination and seedling growth were investigated under laboratory conditions in 46 soya bean genotypes from Central-West region of Brazil to verify how these stresses may limit crop establishment during the initial growth stage and also to identify the most tolerant genotypes to drought and salinity. Mild water and salt stresses were imposed by seed exposure to –0.20 MPa iso-osmotic solutions with polyethylene glycol—PEG 6000 (119.57 g/L) or NaCl (2.357 g/L) for 12 days at 25°C. The germination percentage, seedling length and seedling dry matter were measured, and then, salt or drought tolerance indexes were calculated. The “NS 5909 RG,” “NS 7000 IPRO,” “NS 7338IPRO,” “FPS Solimões RR,” “NS 5151 IPRO,” “SYN 13610 IPRO,” “LG 60177 IPRO,” “NS 6909 IPRO” and “BMX Desafio RR” were identified as the most drought-tolerant genotypes, whereas under salinity conditions, the genotypes “5D 615 RR,” “BMX Desafio RR,” “5D 6215 IPRO” and “BMX Ponta IPRO” were identified as tolerant. The “BMX Desafio RR” is the genotype most adapted to both stress conditions and, therefore, should be used under conditions of water shortage and excess salt in the soil at sowing time.     

比格犬胫神经皮层体感诱发电位正常值研究

为了测定比格犬胫神经皮层体感诱发电位(somatosensory evoked potential,SEP)的波形及其潜伏期和波幅的正常值。选用15只健康比格犬,在异氟烷吸入麻醉状态下,使用肌电诱发电位仪电刺激其胫神经,将自制参考电极和记录电极分别放置于头部Fz处和Cz处记录SEP波形。结果表明:15只比格犬刺激左右侧胫神经均可记录到清晰的双向SEP波。刺激左侧胫神经引发的波形潜伏期为P(21.71±1.978)ms、N(32.61±2.568)ms、P-N(10.90±1.338)ms,其变异系数分别为9.11%、7.87%、12.88%;波幅为(2.762±1.230)μV,变异系数为41.47%;刺激右侧胫神经引发的波形潜伏期为P(21.49±1.985)ms、N(32.55±2.359)ms、P-N(11.06±1.153)ms,其变异系数分别为9.24%、7.25%、10.24%;波幅为(2.634±1.092)μV,变异系数为44.55%。潜伏期和波幅左右侧差异均不显著(P0.05)。对正常比格犬胫神经皮层SEP的测定,获得了清晰的SEP波形及各波潜伏期和波幅的正常值,印证了潜伏期的稳定性优于波幅的稳定性,可以为实验室研究犬病理状态下的SEP和宠物临床应用SEP诊断疾病提供参考依据。     

东北大豆种质群体在克山的表现及其潜在的育种意义

东北是我国大豆的主要生态区,克山是东北北部重要产区。本研究于2012-2014年,以搜集到的东北地区各单位现存的361份大豆地方品种和育成品种作为东北现存的本地种质,观察该群体在克山地区的表现,研究其在克山的潜在育种意义。获得以下主要结果:(1)东北大豆种质群体平均表现为全生育期133 d(103.8~157.0 d)、蛋白质含量39.69%(35.6%~44.38%)、油脂含量20.58%(17.47%~22.84%)、蛋脂总量60.27%(54.00%~63.97%)、百粒重17.61 g(6.13~28.17 g)、株高约96 cm(54.92~146.8 cm)、主茎19节(11.23~25.83)、分枝2.75个(0.22~7.63)、倒伏2级左右(1.00~4.00);(2)当地适合熟期组为MG 0和MG I,各性状的平均值与群体平均相近,其它熟期组在当地的表现与之不同。MG 000和MG 00的生育天数集中在110~120 d,比当地无霜期早约10~20 d,不能充分利用当地的自然条件;而品质性状表现则略优于MG 0和MG I,特别是油脂含量和蛋脂总量分别高约1%、1.5%;株高、节数均低于MG 0和MG I,分别低约10~40 cm、2~8节。MG II的生育天数在当地高达150 d,不能稳定正常成熟,不适合当地种植;品质性状表现低于当地品种水平,特别是蛋白质、蛋脂总量均低约2%,油脂低约0.5%;而株高、节数高于当地品种,分别高约10 cm、2节,倒伏程度则高达3级。MG III在克山不能正常成熟,导致其它性状表达不正常,生长量和倒伏度增加;(3)根据各农艺品质性状在克山表现的遗传进度估计,虽然油脂和蛋白质含量相对小些,但均有一定的改良潜力。克山地区利用东北大豆资源育成了许多适于东北北部的优异品种,体现了东北种质的重要作用。根据当地品种的表现,从供试的东北资源中提出了各农艺、品质性状改良可用的亲本品种名单,供育种工作者参考。     

粮食生产潜力短期预测的“趋势-波动模型”的验证

应用全国、31个省、6个典型地区和16个典型县的数据对粮食生产潜力短期预测的"趋势-波动模型"进行了系统性的验证和讨论。研究结果表明:(1)预测误差大小反映短期生产潜力的预测精度,预测误差大的主要原因是经济发达地区高产农田被大量占用和(或)蔬菜、水果种植面积大幅度增加而短期内使粮食单产下降;(2)小趋势修正方法是"趋势-波动模型"中不可缺少的一部分,它能将大趋势预测不能包括的短期如气象因素、科技投入、社会因素等影响纳入预测中,提高预测精度;(3)就我国近些年来的实际情况而言,越是经济发达的地区短期生产潜力的波动越大;同样发达地区短期潜力存在增加-下降-回升阶段;(4)就短期生产潜力预测精度而言:国家级大于省级、省级大于地区级、地区级大于县级;不同省、不同地区、不同县之间预测精度差别比较大,这与境内气候的互补性和农田抗御自然灾害的能力有关。     

Projecting future habitat quality of three midwestern reservoir fishes under warming conditions

Rising temperatures caused by climate change are likely to affect cool‐water and warm‐water fishes differently. Yet, forecasts of anticipated temperature effects on fishes of different thermal guilds are lacking, especially in freshwater ecosystems. Towards this end, we used spatially explicit, growth rate potential (GRP) models to project changes in seasonal habitat quality for a warm‐water piscivore (largemouth bass Micropterus salmoides), a cool‐water piscivore (walleye Sander vitreus) and a hybrid piscivore (saugeye S. vitreus × S. canadensis) in two Midwestern reservoirs. We assessed habitat quality for two periods (early and middle 21st century) under two realistic greenhouse gas emission scenarios (a mid‐century emissions peak and a rapid continuous increase in emissions). Largemouth bass were projected to experience enhanced or slightly reduced habitat during all seasons, and throughout the mid‐21st century. By contrast, walleye habitat was projected to decline with anticipated warming, except during the spring in the smaller of our two study reservoirs and during the fall in the larger of our two study reservoirs. Saugeye habitat was projected to either increase modestly or decline slightly during the spring and fall and declines in habitat quality and quantity that were smaller than those for walleye were identified during summer. Collectively, our findings indicate that climate warming will differentially alter habitat suitability for reservoir piscivores, favouring warm‐water species over cool‐water species. We expect these changes in habitat quality to impact the dynamics of reservoir fish populations to varying degrees necessitating the consideration of climate when making future management decisions.     

Greenhouse gas mitigation potential of agricultural land in Great Britain

The aim of this paper is to assess the greenhouse gas (GHG) mitigation potential of croplands and grasslands in Great Britain under different management practices. We consider the feasible land management options for grass and cropland using county level land‐use data with estimates of per‐area mitigation potential for individual and total GHGs, to identify the land management options with the greatest cost‐effective mitigation potential. We show that for grasslands, uncertainties still remain on the mitigation potential because of their climatic sensitivity and also their less intensive management. For croplands in Great Britain, the technical mean GHG mitigation potentials for all cropland management practices range from 17 Mt CO₂‐eq. per 20 yr to 39 Mt CO₂‐eq. per 20 yr. There are significant regional variation in all cases, with the greatest potentials in England, negligible potential in Wales and intermediate potential in Scotland, with country differences largely driven by the areas of cropland and grassland in each country. Practices such as agronomic improvement and nutrient management are the most promising options because of their impact on N₂O emissions and also their larger potential at low cost. In terms of annual emissions from agriculture, calculated mitigation potentials are small, where the technical mitigation potential of agronomy and nutrient management strategies are ca. 4.5 and 3.8%, respectively (agricultural emissions account for ca. 9% or 47.7 Mt CO₂‐eq., of total Great Britain GHG emissions, Department of Energy and Climate Change, UK). However when compared with the land use, land‐use change and forestry sector (LULUCF) emissions, nutrient management would reduce further emission reductions by approximately half of the 2005 LULUCF sink (i.e. ?1.6 Mt CO₂‐eq. per year).     

祁连山南麓高寒灌丛GPP变化特征及对生长季积温的响应

全球气候变化背景下气温逐渐升高,将会对陆地生态系统碳循环产生重要影响。研究利用2003?2016年的涡度相关系统观测资料,研究了祁连山南麓高寒灌丛生长季(5月?9月)总初级生产力(gross primary productivity,GPP)在不同时间尺度上对生长季有效积温(growing season degree days,GDD)的响应,对于研究气候变暖对高寒生态系统碳循环的影响有重要意义。结果表明:高寒灌丛生态系统在生长季的月GPP、GDD都表现为先增大后减小的单峰变化趋势,都在7月或8月达到峰值,在5月达到最小值。在整个生长季尺度上,GPP与GDD具有较高变异性,但整体上表现为逐渐增加的趋势(P<0.05)。2003?2016年整个生长季GPP与GDD的均值分别为507.11 g·m^?2和975.93℃。在月尺度和生长季尺度上,GPP与GDD都呈显著正相关关系(P<0.05)。但是,通过比较生长季每个月GPP与GDD的关系发现,5、9月的GPP与GDD没有显著相关性(P>0.05),而在7月相关性最为显著(P<0.01)。整体上看,高寒灌丛生态系统植被的总初级生产力与热量条件表现为正相关关系,由此说明在全球气候变暖的背景下,青藏高原高寒灌丛生态系统植被的光合生产能力将会提高。