不同覆盖栽培对旱作冬小麦土壤水分、产量和品质的影响

为探明不同栽培措施下全膜覆土穴播种植对不同基因型冬小麦生产的土壤水分状况、产量和品质的影响,为旱作冬小麦覆膜适水种植与农业绿色可持续高质量生产提供依据。采用普通聚乙烯地膜覆土穴播(PE)和生物降解地膜全膜覆土穴播(BM)2种覆盖材料种植方式,以传统露地穴播(LD)为对照,研究不同栽培措施对冬小麦土壤水分状况、产量、水分利用效率和主要品质的影响。结果表明,在干旱气候和作物耗水影响下,地膜覆盖处理较LD降低0—300 cm土层土壤平均含水量,BM较PE显著降低0—300 cm土层土壤水分。冬小麦全生育期耗水量BM较LD和PE分别增加22.0,23.0 mm,全生育期土壤水分消耗量BM＞LD＞PE。陇鉴1102个种植季地膜覆盖均较露地栽培显著增产;2018—2019年种植季,陇鉴111PE、BM较LD分别增产40.3%和29.7%,2019—2020年种植季,受严重倒伏影响PE、BM较LD分别减产2.5%,3.5%。与LD相比,地膜覆盖降低冬小麦籽粒品质,BM较PE极显著提升面团稳定时间和形成时间,陇鉴110籽粒平均蛋白质含量、湿面筋含量和弱化度分别较陇鉴111增加10.6%,11.1%,10.3%。因此,生物降解地膜覆盖可 起到与聚乙烯地膜类似的蓄水保墒功能,但在旱作区冬小麦生产中,生物降解地膜覆盖要依据品种耗水特性及地膜栽培适应性,选择适宜的品种。     

基于自纠正NMS-ByteTrack的套袋葡萄估产方法

针对套袋后的葡萄体积增加和葡萄叶片表面积大容易出现重叠遮挡,及人工拍摄视频的速度不稳定可能导致套袋葡萄目标丢失的问题,该研究提出一种基于自纠正NMS(non-maximum suppression)-ByteTrack的套袋葡萄估产方法。该方法首先通过目标检测方法YOLOv5s检测视频中的套袋葡萄,将检测阶段的NMS操作后置到追踪阶段,保留因遮挡而被过滤的果实检测框;其次在ByteTrack的基础上加入相机运动补偿和改进的卡尔曼滤波算法,以自动纠正果实预测框的位置并进行追踪;最后提出一种划线计数策略对套袋葡萄自动计数。试验结果表明,该方法的多目标追踪准确率、多目标追踪精度和ID调和平均数分别为64.6%、82.4%和80.8%,相比ByteTrack分别提高了1.7个百分点、1.0个百分点和4.1个百分点,平均计数精度达到82.8%。因此,基于自纠正NMS-ByteTrack的估产方法能有效解决套袋葡萄的追踪计数问题,实现对套袋葡萄更精确地估产。     

Chemically and biologically activated biochars slow down urea hydrolysis and improve nitrogen use efficiency

Biochar is considered a potential technology to enhance chemical fertilizer use efficiency through intensification of the interactions between nutrients and the functional groups on biochar surfaces. However, little is known about how the application of activated biochars mixed with urea influences nitrogen(N) mineralization and crop performance in paddy fields. Here, a sawdust-derived fresh biochar (FBC)(ca. 400?C) was activated chemically with 15%hydrogen peroxide and biologically with a nutri...     

不同行距对冬小麦麦田蒸发、蒸散和产量的影响

为了研究不同行距对冬小麦田棵间蒸发、蒸散和产量的影响,于2002～2003年在中国科学院栾城农业生态实验站进行了试验。结果表明：不同行距处理对棵间蒸发的影响在不同的冬小麦生育时期表现不同,在4月份呈现显著性差异,在12月-3月之间,处理之间没有明显差异,在其它时期7.5 cm的行距处理与30 cm行距的处理呈显著性差异,15cm的处理与它们均没有明显的差异;在整个生育期内,7.5 cm的行距处理比15 cm和30 cm的行距处理分别减少棵间蒸发13.26和29.04 mm,蒸散量减少22.76 mm和51.88 mm;7.5 cm的行距处理比15 cm和30 cm的行距处理分别提高产量水分利用效率0.11 kg/m³和0.23 kg/m³。     

超微细菌Glaciecola多糖的超声提取工艺研究

多糖已作为免疫药物，应用于心血管疾病的临床治疗。研究了超微细菌Glaciecola多糖适宜的提取方法。通过研究常规水浸提法中不同料液比、提取温度和时间对细菌多糖得率、黏度和表面张力的影响，以及超声提取对多糖得率、黏度和表面张力的影响，结果表明：提取时间对多糖得率和多糖黏度均存在着显著的影响(p<0.05)，细菌多糖的适宜提取条件为料水比1∶15，提取温度在100℃左右，提取时间4～6 h。超声强化处理能显著提高超微细菌多糖的得率，降低提取液的表面张力(p<0.05)，超声强化处理后提取2 h的多糖得率，可达未处理前提取6 h的水平；超声提取条件以选择10～15 min、100 W功率，提取4 h为宜。超微细菌Glaciecola多糖的得率可达8.82%。     

稻草覆盖对坡地红壤培肥及作物增产的效果

研究了坡地红壤连续5年采用稻草覆盖措施对土壤肥力和作物产量的影响。结果表明,“稻草+化肥氮磷”(“Straw+NP”)处理的土壤有机碳和全氮、磷分别比不施肥(CK)的提高42.9%和17.4%、44.2%,有机碳和全氮的增幅约是纯化肥(NPK)处理的2倍。与CK和NPK处理的相比,“Straw+NP”处理能明显提高微生物生物量碳、氮、磷和溶解性有机碳、氮以及Olsen-P含量,差异达到显著(P<0.05)或极显著(P<0.01)水平。在等养分施用量的条件下,“Straw+NP”处理能显著提高油菜和甘薯的产量。因此,稻草易地覆盖是一种有效培肥坡地红壤和增加作物产量的途径。     

Indicators of soil quality and crop productivity assessment at a long-term experiment site in the lower Indo-Gangetic plains

Deterioration of soil quality under resource-intensive modern agriculture in the face of global climate change poses a huge risk to food security. Because of the complex nature, estimators of soil quality often rely upon a limited set of soil attributes, along with statistical data reduction techniques, for developing quality indices, whilst overlooking biological aspects and regional climatic variability. This study screened the most suitable soil quality indexing approaches for a rice-oilseed-based cropping system in the lower Indo-Gangetic plains (IGP). For this, surface soil samples (0–15 cm) were collected from an ongoing long-term fertilizer experiment with a rice-mustard-sesame cropping system in the IGP. The following treatments were assessed for their effect on soil quality: T₁-control, T₂-NPK (recommended NPK doses), T₃-NPKG (NPK + in situ green manuring), T₄-NPKGB (NPK + in situ green manuring + biofertilizer) and T₅-NPKF (NPK + farm yard manure FYM). We found that total organic carbon (TOC), β-glucosidase, CaCl₂ extractable S, alkaline KMnO₄ oxidizable N, activity of urease, amidase enzyme and mean weight diameter (MWD) were sensitive key indicators of soil quality. The NPKF treatment maintained the highest soil quality status (0.80–0.91), both under productivity and environmental protection goals, owing to the availability of decomposable carbon. Regression analysis showed a better agreement of equivalent rice yield with expert opinion (EO; R² = 0.89) than principal component analysis (PCA; R² = 0.76). Finally, we found that the expert opinion approach with the nonlinear scoring function was the best tool for soil quality assessment of the region.     

气候对早稻土壤供肥能力的影响

为了给测土配方施肥提供土壤供肥能力的参考依据，1987年至2005年在土壤肥力较一致的马肝泥田上进行了土壤供肥能力的多点田间试验。结果表明，气候对土壤供肥能力影响显著。土壤供肥能力：高温少雨年份K2O〉N〉P2O5，低温多雨年份P2O5〉K2O〉N，正常年份K2O〉P2O5〉N。土壤供肥比例（N：P2O5：K2O）：高温少雨年份为1：0．23：0．58，低温多雨年份为1：0．29：0．56，正常年份为1：0．25：0．62。     

An integrated watershed modelling framework to explore the covariation between sediment connectivity and soil erosion

Quantitative identification of the covariation between sediment connectivity and soil erosion can contribute to provide the key information for watershed sediment management. However, this covariation and its spatiotemporal response mechanisms are still unclear, especially whether this covariation can be used as a basis for identifying critical source areas of sediment in large-scale ecological restored watersheds. In this study, an integrated methodology framework by the revised universal soil loss equation (RUSLE), index of connectivity (IC) and sediment delivery ratio (SDR) was proposed to visually assess the spatiotemporal characteristics of erosion and sediment yield processes in the Yanhe Watershed with large-scale ecological restoration from 1985 to 2020 and to identify the covariation between sediment connectivity and erosion in subbasins. The soil erosion estimated by RUSLE has decreased by over 80% since 1985 owing to increased vegetation cover and the effective implementation of soil conservation measures, but the upper reaches still have high erosion intensity due to differences in specific controlling factors such as topographic conditions and land cover, requiring focused soil conservation practice. The IC results showed that as the vegetation restoration and soil conservation measures in the Yanhe Watershed varied from year to year, their spatial and temporal patterns had a strong influence on the distribution of sediment connectivity, and some local areas in the middle reaches showed local minima of IC in 1995, 1998 and 2010 mainly due to the implementation of long-term ecological restoration project. The developed IC-Erosion maps indicated that areas with high connectivity but low erosion accounted for over 60% of the total watershed area from 1985 to 1999, demonstrating a reverse correlation between sediment connectivity and erosion. Meanwhile, over 40% of the erosion occurred in a few areas (approximately 20%) with high connectivity and high erosion from 2000 to 2004, which can be characterized as the critical areas of erosion. The methods and results of this study provide ideas for separately defining both erosion and connectivity and quantifying bi-variable erosion–connectivity classification, which can be easily viewed on a scatterplot.     

In situ evaluation of fruit yield and estimation of repeatability coefficient for major fruit traits of umbu tree [Spondias tuberosa (Anacardiaceae)] in the semi-arid region of Brazil

The umbu tree (Spondias tuberosa) is a xerophytic woody species endemic to the northeast of Brazil. The present work reports a three-year in situ evaluation of major yield components in a random set of trees in Petrolina city, Pernambuco State, Brazil and the application of repeatability coefficient in the context of genetic resources utilization. Five traits were assessed: total fruit yield per plant (FY); total number of fruits per plant (NF); average fruit weight (FW); average pulp weight (PW) and average fruit diameter (FD). The values observed for FY ranged from 4.2–184 kg with mean of 61.5 kg. The values for NF ranged from 257 to 12,981 fruits/tree with mean 3,993 fruits. For FW, the range was from 10.82–23.36 g with mean of 16.03 g. The values for PW ranged from 7 to 17 g with mean of 11.2 g, while FD values varied from 2.5 to 3.5 cm with mean of 3.0 cm. Six methods were employed to estimate repeatability coefficient (r) for all parameters. The r ranged from 0.68–0.76 for NF; 0.87–0.89 for FW; 0.65–0.75 for FY; 0.64–0.78 for PW and 0.70–0.84 for FD. Narrower ranges across methods were observed to r-values greater than 0.80, as observed for FW and FD. Three to four years of measurements will be necessary for FY, NF, and PW and one year for FW to obtain a precision of 90% to provide a reliable identification of individuals for in situ or ex situ conservation.