圆形喷灌机条件下变量灌溉对苏丹草产量与品质的影响

以苏丹草为研究对象，于2019年5—8月在河北涿州中国农业大学教学实验场开展了圆形喷灌机条件下变量灌溉对苏丹草产量与品质的影响研究。依据土壤表观电导率（ECa）差异划分出3个灌溉管理小区（1区、2区、3区），并分别对其进行变量灌溉（VRI）和均匀灌溉（URI）处理。结果表明：全生长季内，URI和VRI处理之间年产量没有显著性差异（P>0.05）,但VRI处理比URI处理节水13.4％，灌溉水分利用效率提高了17.5%，尤其是在第二茬雨季VRI处理的灌溉水分利用效率提升了43.8%（P<0.05）；第一茬，VRI处理与URI处理苏丹草粗蛋白含量与相对饲喂价值没有显著性差异（P>0.05），但在降雨量较大的第二茬VRI处理可以显著提高苏丹草的粗蛋白含量（提高9.5%，P<0.05）和相对饲喂价值（提高3.5%，P<0.05）。     

基于WOFOST模型的辽宁省春玉米干旱灾损风险评估

利用锦州农业气象试验站的作物生长发育和土壤实测数据对WOFOST模型水分胁迫模块进行了调参，适用性验证表明，WOFOST模型适用于辽宁省春玉米生长发育和产量的模拟，辽宁省春玉米受干旱的影响可以利用WOFOST模型较敏感地反映出来。利用调参后的WOFOST模型模拟了全生育期及出苗~拔节、拔节~抽雄、抽雄~乳熟和乳熟~成熟各阶段发生轻、中、重旱情景对辽宁省春玉米产量的影响，并根据模拟结果确定了不同干旱风险等级下辽宁省东、中、西部玉米生产的灾损范围。结果表明：不同生育期发生干旱对产量的影响不同，总体上，抽雄~乳熟期发生干旱的影响最大，其次是拔节~抽雄期，而出苗~拔节期和乳熟~成熟期发生干旱对产量的影响较小，全省春玉米在抽雄~乳熟期发生重旱的减产风险达30%~70%；在相同干旱水平下，不同区域受影响程度也不同，在全生育期及各生育阶段发生轻、中、重旱情景下，干旱导致的减产率总体上表现为由东部向西部地区逐渐加重的趋势，在全生育期重旱情景下，辽宁省东部的春玉米减产率为40%~75%，中部为60%~90%，西部达65%~95%。     

箭筈豌豆、玉米产量对间作和施氮水平的响应

研究不同施氮水平下箭筈豌豆、玉米产量对单作和间作的响应,对于优化栽培措施、提高作物产量具有重要意义。本试验于2017年在甘肃河西绿洲灌溉区进行,重点研究是不同施氮水平下箭筈豌豆、玉米在单作及间作模式中干物质累积、产量构成、产量表现。结果表明,间作箭筈豌豆干物质累积量与单作相比在不施氮(N0)、减量施氮(N1)和常规施氮(N2)处理下分别提高44.0%、36.7%和37.2%;施氮水平间,间作模式下N1比N2和N0提高9.1%和25.5%,单作模式下提高9.4%和32.1%。间作玉米干物质累积量与单作相比在N0、N1和N2处理下分别提高23.3%、22.5%和23.0%;施氮水平间,间作模式下N1比N2和N0提高9.3%和19.8%,单作模式下提高9.9%和20.7%。间作模式下箭筈豌豆豆荚数和玉米穗数较相应单作分别增加7.6%和14.5%,两者的产量较单作分别提高34.9%和27.0%。由通径分析可知,箭筈豌豆产量决定次序是豆荚数>粒重>单荚粒数,玉米产量决定次序是穗数>粒重>穗粒数。间作结合施氮量240 kg/hm²能获得较高干物质积累量和产量,是河西灌溉区玉米间作箭筈豌豆适宜的施氮水平。     

Impact of climate change on maize yield in China from 1979 to 2016

Climate change severely impacts agricultural production, which jeopardizes food security. China is the second largest maize producer in the world and also the largest consumer of maize. Analyzing the impact of climate change on maize yields can provide effective guidance to national and international economics and politics. Panel models are unable to determine the group-wise heteroscedasticity, cross-sectional correlation and autocorrelation of datasets, therefore we adopted the feasible generalized least square(FGLS) model to evaluate the impact of climate change on maize yields in China from 1979–2016 and got the following results:(1) During the 1979–2016 period, increases in temperature negatively impacted the maize yield of China. For every 1°C increase in temperature, the maize yield was reduced by 5.19 kg 667 m–2(1.7%). Precipitation increased only marginally during this time, and therefore its impact on the maize yield was negligible. For every 1 mm increase in precipitation, the maize yield increased by an insignificant amount of 0.043 kg 667 m–2(0.014%).(2) The impacts of climate change on maize yield differ spatially, with more significant impacts experienced in southern China. In this region, a 1°C increase in temperature resulted in a 7.49 kg 667 m–2 decrease in the maize yield, while the impact of temperature on the maize yield in northern China was insignificant. For every 1 mm increase in precipitation, the maize yield increased by 0.013 kg 667 m–2 in southern China and 0.066 kg 667 m–2 in northern China.(3) The resilience of the maize crop to climate change is strong. The marginal effect of temperature in both southern and northern China during the 1990–2016 period was smaller than that for the 1979–2016 period.     

萘乙酸吲哚丁酸对水稻产量构成要素的影响

为了明确萘乙酸吲哚丁酸对水稻浸种后对生长和产量的影响,采用随机区组试验设计,以不同浓度6%萘乙酸吲哚丁酸水剂用于水稻浸种。试验结果表明：对水稻生长有较好的调节作用,可增加有效穗数和实粒数,提高产量,增产效果较为明显,对水稻安全。     

调理剂(微肥)对水稻产量及稻谷中重金属的影响

通过田间小区试验，研究了9种水稻产量和铅、镉的差异，并研究了9种调理剂在水稻不同生长其施用对晚稻产量及稻米重金属的影响。结果表明：（1）泰优398中铅和镉的含量均较低，且均未超标；最优的水稻品种为早丰优华占，其次是泰优398和桃湖优莉晶；（2）调理剂A和钝化剂A作基肥处理后稻谷中铅超标，分别超出了20%和15%；仅有石灰处理的稻谷中铅的含量降低了20%；稻谷中镉均未超标；微肥作基肥施加后稻谷中镉均有不同程度的增加；处理后稻谷产量均有增加，其中调理剂B施加后稻谷产量增加最多，增加了22.42%；石灰施加后理增加3.38%；（3）石灰和硒肥作追肥施加后稻谷中铅的含量均降低88.24%；硅肥、硒肥和铁肥作追肥施加后稻谷中镉分别降低了62.92%、52.81%和44.94%；石灰、铁肥和硒肥施加后稻谷产量降低0.04%、0.14%和5.25%；锌肥和硅肥施加后稻谷产量增加10.08%和0.16%；硅肥和石灰作追肥处理效果最佳。     

不同种植方式下温度升高对水稻产量及同化物转运的影响

【目的】气候变暖对水稻生产系统的影响备受关注,研究不同种植方式下,水稻产量及其形成对气候变化的响应规律,为水稻种植区划、栽培措施和品种调整提供依据。【方法】 2017—2018年以南粳9108和南粳46为供试品种,模拟机插秧移栽和机械化直播2种种植方式,以常温（NT）为对照,于始穗期进行中度升温（平均增加2℃,MT）和极端高温胁迫（平均增加5℃,HT）,研究不同种植方式下温度升高对不同水稻品种的产量及其构成、同化物转运、光合生产特性的影响。【结果】在中度升温和极端高温胁迫下,南粳9108和南粳46产量降幅均为移栽<直播,长生育期品种南粳46产量降幅较小。穗干物重增长速率表现为NT>MT>HT,水稻茎叶向穗的干物质转运量、转运率均随着温度升高而递减,且南粳9108下降趋势大于南粳46。穗后21 d至成熟期,剑叶SPAD值总体随着温度的升高而增加,差异达极显著水平;剑叶净光合速率穗后14—21 d均以极端高温胁迫处理下最小,而到穗后35 d以极端高温胁迫处理下最大。剑叶气孔导度、蒸腾速率均呈NT>MT>HT趋势,生育后期差异更显著。通径分析表明,产量各构成因子对产量的影响程度为结实率>千粒重>穗数>每穗粒数,温度处理对产量各构成因子的影响都表现为负效应,且以结实率影响最大（-0.819）。相关分析表明,不同种植方式下受中度升温、极端高温胁迫后,成熟期干物质总重量、茎叶干物质转运量与产量构成因子（穗数除外）,一、二次枝梗籽粒结实率都呈极显著正相关。【结论】始穗期2—5℃升温均显著降低粳稻结实率,从而导致水稻产量降低。从光合物质特性究其原因是由于温度升高降低了干物质向穗的转运率和穗干物质积累速率,从而导致生育后期水稻剑叶SPAD值增加,延长叶片持绿时间,抑制“源”向“库”转移。从气候变暖应对措施来看,选择采用移栽种植方式和长生育期品种易于表现出对极端高温胁迫逆境较好的抗性。     

Cotton Image Segmentation Algorithm Based on Fusion Method of Markov Random Field and Quantum Particle Swarm Cluster

[Objective] The aim of this study was to improve the cotton image segmentation accuracy in a picking robot image processing system. [Method] An image segmentation algorithm based on a fusion method of Markov random field and quantum particle swarm optimization clustering was proposed. The process of the proposed algorithm is as follows: first, transform the RGB (red, green, blue) images into grayscale; second, use it to segment these images; finally, the threshold of the connected area is set on the basis of the segmented image to obtain the target area. Then, the cotton front image and the cotton side image are selected from the images collected from different angles. The segmentation experiment was carried out by using this algorithm, and compared with the Otsu algorithm, the fuzzy C-means algorithm, the quantum particle swarm image segmentation algorithm and the Markov random field image segmentation algorithm. [Result] The results showed that the segmentation accuracy and peak signal to noise ratio of the proposed algorithm were 98.94% and 77.48 dB. When compared with the Otsu algorithm, fuzzy C-means algorithm, quantum particle swarm optimization algorithm and Markov random field algorithm, the average segmentation accuracy and peak signal to noise ratio of the proposed algorithm increased by 2.47%–4.56%, and 9.81–13.11 dB, respectively. [Conclusion] The proposed algorithm had higher segmentation accuracy and higher peak signal to noise ratio than the other algorithms tested.     

Maize harvest index and water use efficiency can be improved by inhibition of gibberellin biosynthesis

Possibilities to improve maize harvest index and nutrient utilization efficiency by application of plant growth regulators were investigated. In container experiments, the effects of different growth regulators on the development of the maize (Zea mays L.) cultivars Pioneer 3906 and Fabregas were tested. Paclobutrazol (PAC) and chlorocholine chloride (CCC), two inhibitors of gibberellin biosynthesis, as well as gibberellic acid (GA₃) were applied at growth stage V5. Three weeks after application of PAC, shoot growth of both maize cultivars was strongly affected with a significant decrease in plant height in the PAC treatment by 44% and 36% for Pioneer 3906 and Fabregas, respectively. The growth‐retarded plants had higher leaf areas and reduced transpiration rates. The higher shoot growth after GA₃ application was accompanied by a reduction in leaf area and an increase in transpiration rate during 1 week before anthesis. CCC treatment showed no significant effects on plant height, leaf area and transpiration rate. The PAC‐treated cultivar Pioneer 3906 produced several cobs per plant, which were mainly barren at maturity. However, PAC application to Fabregas resulted in just one cob per plant with good kernel development and a grain yield, which was not significantly reduced in comparison with the control. With this similar grain yield in combination with a straw yield decrease of 32%, the harvest index was significantly improved by 12%. In addition, with PAC‐treated Fabregas plants, a 19% increased water use efficiency of the grain (WUE_grain) during the critical period of kernel setting was achieved. In this maize cultivar, CCC application also improved harvest index by 5%, but no effect on WUE_grain occurred. GA₃ treatment decreased harvest index of both maize cultivars, and it either reduced WUE_grain (Pioneer 3906) or showed no effect (Fabregas). Utilization efficiencies of N, P and K were not increased with growth regulator application, even in the PAC‐treated Fabregas plants with a significantly improved allocation of assimilates to the grain, mirrored by the higher harvest index. The results indicate that fertilizer applications must be adjusted to the reduced demand of growth‐retarded plants, most likely leading to higher nutrient utilization efficiencies.     

Potassium accumulation,partitioning, and remobilization in high-yield spring maize in Northeast China

Potassium (K) plays an important role in maize yield, but K accumulation characteristics in high yielding maize is still not well documented. A two-year field experiment was conducted to investigate the K accumulation characteristics of high yield (HY)（>15 t ha^?1）spring maize compared with medium yield (MY)（10–15 t ha^?1), and low yield (LY)（<10 t ha^?1). The maximum K accumulation stage in maize appeared between V6 and V12 stage (LY, MY, and HY was 125.46, 138.05, and 146.22?kg ha^?1, respectively). Most of the K (94.27–97.13%) was accumulated during vegetative stages. HY exhibited a significantly higher K accumulation than either MY or LY. For different organs, the K remobilization amount of leaf was the highest, and the remobilization amount of stalk was the lowest, the K remobilization amount of leaf and stalk showed as HY?<?MY?<?LY, same as the total K remobilization amount, but the K remobilization amount of sheath and husk plus cob showed the opposite order. These results indicated that sufficient nutrient supply for maize can not only accumulate more K but also delay leaf senescence and maintain high photosynthetic activity, resulting in reduced K remobilization from vegetative organs, and reduced K loss in whole plant.