国内土壤环境污染防治进程及展望

综述以中国2005—2019年土壤污染防治进程的3个阶段为主线,总结土壤污染防治发展过程中管理模式、治理体系、管控要求、机构改革、立法支持等5个方面重要转变,分析国家和地方土壤环境保护标准、法律法规政策和主要土壤污染治理成效。针对国内土壤污染防治未来发展趋势,从完善土壤环境标准及管理制度、建设监测及预警大数据平台、加强土壤生态环境国际合作、持续推进土壤修复技术攻关和先行区经验推广等方面提出建议,以期为生态环境高水平保护和经济社会高质量发展提供参考。     

基于主成分与灰色关联分析的饲草小黑麦品种筛选与配套技术研究

为了筛选在山西省雁门关地区最适宜种植的小黑麦品种以及配套的高产优质栽培技术,利用主成分分析法和灰色关联度分析法综合评价不同小黑麦品种在不同密度和肥料条件下的产量和饲草品质。结果表明,小黑麦饲草品质指标中糖类和蛋白类指标变异较大,但是总的可消化养分以及能量品质变化较小。相关性分析表明,相对饲料价值（RFV）与粗蛋白含量、瘤胃降解蛋白含量、醇溶糖含量、总可消化养分、产奶净能、维持净能、增重净能和相对饲料质量（RFQ）均呈极显著正相关。RFV主要通过酸性和中性洗涤纤维计算而来,在单一指标中最能反映饲草品质。综合考虑灰色关联度和主成分分析方法,晋饲草1号（播种量150kg/hm²,复合肥750kg/hm²、尿素150kg/hm²）最适宜雁门关地区推广种植。     

基于空间分析的黑龙江稻瘟病重点发生区域识别

黑龙江是北方重要稻作区,稻瘟病是影响水稻产量的主要病害之一。依据稻瘟病测报调查规范,基于近5年黑龙江稻瘟病乡村监测点调查数据,利用空间分析技术的方法,分析黑龙江稻瘟病重点发生区县和核心发生区域,提取稻瘟病重点发生乡村监测点。结果表明,近5年黑龙江稻瘟病发病面积占调查面积的7.3%,发病等级以1级为主,整体发生较轻,稻瘟病重点发生区域主要分布在松花江上游地区哈尔滨市的阿城、尚志、方正、延寿、通河、依兰沿线和松花江下游三江平原地区佳木斯市的富锦、同江一带,以及嫩江流域大庆市的肇源县和齐齐哈尔市的讷河市以及呼兰河流域绥化市北林区,并提取了98个叶瘟和47个穗颈瘟重点监测点。上述结果为黑龙江稻瘟病调查监测区域和监测点的布局优化提供了重要依据,为稻瘟病测报防控工作提供重要的支撑。     

Prevention and Controlling Effect of Intercropping on Pests and Diseases and Its Risk Control in Cotton Fields

Cotton is one of the major field crops which are seriously threatened by pests and diseases. In recent years, the ecological management of cotton pests and diseases with intercropping has become to be an interesting approach. Intercropping possibly increases the population of natural enemies and finally reduces the population density of pests as a result of changes in ecological structure and environmental conditions of farmland. Intercropping thus has been considered an important alternative in controlling pests and diseases. However, cotton field intercropping also has some limitations in controlling pests and diseases. Unreasonable intercropping system has many risks such as increasing labor input, increasing the difficulty of pests’ control, and aggravating pests and diseases. In this paper, the effects and the underlying mechanisms of cotton intercropping on cotton pests and diseases were reviewed. The possible risks and countermeasures used for ecological control of intercropping were also put forward, and the future and application of ecological management of cotton pests and diseases with intercropping were prospected.     

四个猕猴桃品种在南京地区引种栽培表现

猕猴桃果实风味独特，富含维生素C，享有“水果之王”的美称，近年来发展迅速。江苏省气候适合猕猴桃的生长，栽培面积逐年增加，本文对四个猕猴桃优良品种‘青皮红香’、‘早鲜’、‘翠香’和‘晚红’在南京地区的引种栽培表现进行了观测。四个猕猴桃品种果实各具特点，且与其他地区的表现有所差异，‘青皮红香’果皮无毛，红肉，但在南京果肉为绿色，其他果皮品质也不佳；‘早鲜’成熟早，在南京8月中旬即可成熟，耐贮藏，果实重量达到91.03 g，且维生素C含量较高，为82.13 mg/100g，但口味偏酸；‘翠香’果皮易剥落，果肉翠绿，可溶性糖含量（9.56%）和糖酸比（8.25）较高，口味佳；‘晚红’果肉绿，果心周围具红色，可溶性固形物含量高达19.11，但果实较小，为62.92 g。     

Assessing the utility of topographic variables in predicting structural complexity of tree stands in a reforested urban landscape

The transformation of natural landscapes into impervious built-up surfaces through urbanization is known to significantly interfere with the ecological integrity of urban landscapes and accelerate climate change and associated impacts. Although urban reforestation is widely recognised as an ideal mitigation practice against these impacts, it often has to compete with other lucrative land uses within an urban area. The often limited urban space provided for reforestation therefore necessitates the optimization of the ecological benefits, which demands spatially explicit information. The recent proliferation of tree stands structural complexity (SSC) and topographic data offer great potential for determining the ecological performance of reforested areas across an urban landscape. This study explores the potential of using topographic datasets to predict SSC in a reforested urban landscape and ranks the value of these topographic variables in determining SSC. Tree structural data from a reforested urban area was collected and fed into a tree stand structural complexity index, which was used to indicate ecological performance. Topographic variables (Topographic Wetness Index, slope, Area Solar Radiation and elevation)- were derived from a Digital Elevation Model (DEM) and used to predict SSC using the Partial Least Squares (PLS) regression technique. Results show that SSC varied significantly between the topographic variables. Results also show that the topographic variables could be used to reliably predict SSC. As expected, the Topographic Wetness Index and slope were the most important topographic determinants of SSC while elevation was the least valuable. These results provide valuable spatially explicit information about the ecological performance of the reforested areas within an urban landscape. Specifically, the study demonstrates the value of topographic data as aids to urban reforestation planning.     

避雨栽培对南方甜樱桃生长发育影响研究进展

避雨栽培可提高甜樱桃的产量和品质，尤其是在多雨地区。笔者从生长环境、物候期、营养生长、生殖生长及病虫害五个角度，结合前人的研究分析了避雨栽培对甜樱桃生长发育的影响。并探讨了避雨设施未来的发展前景，以期为南方多雨地区栽培甜樱桃提供一定参考。     

不同类型水稻品种产量和氮素吸收利用对大气CO2浓度升高响应的差异

目的 探明不同类型水稻品种产量和氮素吸收利用对FACE(大气CO₂浓度增高)响应的差异。方法 以常规粳稻、杂交籼稻、常规籼稻共6个品种为供试材料,研究FACE对不同类型水稻产量、氮素吸收利用的影响。结果 1）FACE处理极显著提高了水稻产量,平均增加24.17%, 常规籼稻增幅最大,FACE和对照均以杂交籼稻最高;2）FACE处理显著增加了单位面积穗数,常规粳稻增幅最大,并显著增加了杂交籼稻和常规籼稻每穗粒数;3）FACE处理显著提高了成熟期吸氮量和氮素籽粒生产效率,成熟期吸氮量平均增加21.23%,杂交籼稻增幅最大, FACE和对照均以常规籼稻最高;氮素籽粒生产效率平均增加7.33%,杂交籼稻增幅最大,FACE和对照均以杂交籼稻最高。成熟期吸氮量对产量促进作用略大于成熟期氮素籽粒生产效率;4）FACE处理降低了植株含氮率,成熟期平均下降0.105个百分点,常规粳稻降幅最大。FACE处理极显著提高植株干物质量,成熟期平均增加23.95%,常规籼稻增幅最大;FACE处理显著提高常规籼稻和杂交籼稻成熟期单穗吸氮量,分别增加10.79%、13.93%,但常规粳稻下降了9.60%;FACE处理显著提高了成熟期群体吸氮强度,平均增加22.29%,杂交籼稻增幅最大。FACE处理对水稻全生育期天数无显著影响;FACE处理显著提高茎鞘、叶片、穗各器官吸氮量,叶片增幅最大,平均增加51.86%,杂交籼稻增幅最大;FACE处理显著提高了不同生育阶段吸氮量,抽穗-成熟阶段增幅最大,平均增加108.90%,杂交籼稻增幅最大;5）植株干物质量、单穗吸氮量、吸氮强度、穗吸氮量、抽穗-成熟阶段吸氮量对成熟期总吸氮量的促进作用分别大于植株含氮率、单位面积穗数、生育天数、茎鞘叶吸氮量、移栽-分蘖和分蘖-抽穗阶段吸氮量;6）FACE处理显著提高了氮肥偏生产力,降低了每百千克籽粒需氮量,前者平均增加24.16%,常规籼稻增加最多;后者平均降低4.7%,常规籼稻降幅最大。结论 FACE处理可显著提高水稻产量和氮素吸收利用效率,但品种间差异较大。