Low‐carbon evaluation of rural neighborhood: A case study of Yanhe Village,Hubei Province,China

Climate change has become a global issue influencing human survival and development while low‐carbon is the inevitable choice. As the world’s largest emitter of greenhouse gases, China has become an important force that influences the cooperation of climate change. China is a large agricultural country, and the rural carbon emissions have been gradually increasing. We consider rural neighborhood as an important space for the use of low‐carbon ideas to address climate change. There is no specific assessment system for a rural neighborhood. The studies of rural neighborhood low‐carbon mainly focus on the method of calculation carbon emissions. However, only quantifying rural carbon emissions is insufficient. In this paper, a low‐carbon evaluation indicator system has been proposed for rural neighborhood and Fuzzy Comprehensive Evaluation has been applied to get the low‐carbon degree. Considering the influence and feedback inside the indicator system, Analytic Network Process was applied to get the weights. Furthermore, a case study was carried out for the using of the proposed method in an eco‐village of China. Our practice has proved that the system is easy to operate in rural neighborhood.     

红肉猕猴桃果实发育期不同果肉部位比较转录组分析

红肉猕猴桃中果皮和内果皮在果实发育不同时期色泽变化模式有显著差异,但目前对于其内在的分子调控机制尚不清楚。本研究中,利用高通量测序技术,对红肉猕猴桃(‘红实2号’)中果皮与内果皮4个不同发育时期(开花后0 d, 28 d, 75 d, 157 d,分别标注为T1时期, T2时期, T3时期, T4时期)的样本进行转录组测序。经去除低质量数据后,得到Clean reads数目为2 192～4 331万,检测到的基因数目为24 607～29 170个。在(log2 Ratio)≥1和FDR<0.05阈值下,中果皮和内果皮在T2、T3、T4时期检测到的差异基因数目分别为1 880个、4 799个、7 346个和4 31个、1 493个、7 700个。KEGG分析显示这些差异表达基因被富集到68个代谢途径,包括DNA复制、RNA转运、蛋白质输出、植物激素信号转导、类黄酮生物合成、花青素合成、淀粉与蔗糖的代谢等。此外我们还鉴定到13个花青素合成相关基因差异表达,大部分基因的表达量随果实的发育呈现下降趋势,这一结果与花青素含量变化模式相吻合。本研究不仅深化了对猕猴桃果实成色差异机理的认识,还对今后的彩色猕猴桃选育种工作有一定的帮助。     

基于自压滴灌工程过滤装置尺寸的确定及应用

由于新疆牧业灌区无电供应,水源无法过滤,实现滴灌工程难,目前采用地面灌溉。地形坡度大、灌水量多、大量水土流失。灌区下游排水不畅,洼地沼泽化面积剧增,地下水位上升导致土壤盐碱化,弃田面积逐渐扩大、种植面积萎缩。为了解决上述问题,充分利用地形落差,研制了自压滴灌工程过滤装置。同时渠道进水流量、调水池的调节流量、集水桶流量及系统流量之间建立了平衡关系。用实例说明不同地形落差与自压滴灌工程系统流量及过滤装置尺寸的计算过程。解决了自压滴灌工程水源的过滤、排沙、冲沙及自行冲洗等问题。为无电牧业灌区实现节水灌溉技术提供依据。     

不同养分组合对高粱吸收氮磷钾养分的影响

通过盆栽试验,研究不同蕉园土壤条件下不同养分及组合对高粱吸收氮磷钾养分的规律。研究表明：在OPT基础上,（1）不施N,极显著降低高粱对N的吸收,但提高了高粱对P的吸收,且极显著提高了高粱对K的吸收;不施P,严重降低高粱对P的吸收,却提高了高粱对K的吸收。（2）不施Mg、施S或施B均有助于提高高粱对P和K的吸收。（3）施Fe、施Mn或施Cu均有助于提高高粱对K的吸收。     

Screen of Biocontrol Bacteria of Ginger Wilt by Inhibiting Zones and Root-colonizing Capacity

2003年6月在雅安飞仙关多功乡13个未发病或发病较轻的生姜田块中分离到217个细菌菌株,其中三个(L1、D4、T10)菌株对姜瘟病有强抑菌作用,用利福平标记后在室内的灭菌土和非灭菌土中分别进行定殖能力的测定,结果表明:L1在平板上的抑菌圈不是最大,而最终定殖密度却是最大,而T10抑菌圈最大,定殖能力却不是最大。在灭菌土中比非灭菌土中的定殖能力强。在田间防病试验中,防病效果分别达60.16%(L1)、39.10%(D4)、52.39%(T10)、此外试验结果还表明三个菌株都有不同程度的增产促长作用。     

中草药验方对乏情母猪繁殖性能的影响

试验选择由卵巢机能失调、子宫炎、阴道炎为主要原因引起的乏情母猪,通过中草药制剂和西药促性腺激素进行催情治疗的效果比较。证实了中草药验方对乏情母猪具有较好的提高繁殖性能的作用。     

动物软组织修复资源-沙棘

伤口愈合是一种复杂的现象,是机体控制的系统对细胞进行精微同步调节的结果.然而,一系列可变因素通过多种方法来影响此过程.通常来说,机体内的各种维生素,矿物质,脂肪酸,氨基酸和其他营养物质对该过程起着直接或间接的重要影响.不仅如此,各种疾病与无数的外界因素也以不可预料的形式影响着该过程.因此,任何治疗方法都是努力控制上述因素以使机体处于最佳恢复状态.因此,当这种天然愈合过程被打断,机体的伤口就会转变为慢性,或者出现溃疡.     

印度Leh地区沙棘籽油中脂肪酸测定

本文分析了印度Leh地区沙棘籽油中脂肪酸各成分的含量,结果显示沙棘种子含油量为17.61%,籽油富含油酸(23.012%)和亚油酸(30.162%).     

农药的对靶喷撒技术在综合防治技术体系中的意义

在病虫害综合防治技术体系中,农药的不良副作用是一种消极因素。本文论述了产生这种副作用的原因,指出问题在于常用的粗放施药方法药剂沉积效率太低面常规喷撒方法又缺乏严格的喷撒技术指标。提出应发展农药的对靶喷撒技术,提高药剂在有效靶区的沉积效率,以减少药剂向非目标靶区的飘移损失,使综合防治技术体系更趋完善。文章介绍了对靶喷撒技术的研究发展概况。     

Effect of Ultraviolet Disinfection of Hydroponic Solutions on Pythium Root Rot and Non-target Bacteria

Dispersal of root pathogens is a major concern in closed hydroponic cultures. To limit dispersal, ultraviolet (UV) disinfection technology has been used to remove pathogens but its effect on non-target bacterial populations is largely unknown. In this study, the circulating solution was disinfected with various UV doses (i.e., 19, 38, 59, 88mJcm^–2) before recirculation. At the beginning of the experiment, the hydroponic solution was inoculated with Pythium aphanidermatum at 6.7±1.5CFUmL^–1. Four months later the population density of P. aphanidermatum reached 1030CFUmL^–1 in the control and 1028, 970, 610, and 521CFUmL^–1 in the solutions treated by the above UV doses. In all UV-treated solutions, significant (P<0.05) reduction of both Pythium and bacterial populations was noted. For the former, its reduction did not result in decrease of Pythium root rot nor increase of tomato fruit yield. For the latter, its reduction showed a concomitant decrease of the populations in the rhizosphere. The bacterial populations in the rhizosphere were 6.77×10⁹CFUmg^–1 fresh roots at the beginning of the experiment and were 7.89×10⁸, 9.93×10⁷, 7.33×10⁷, and 3.51×10⁷CFUmg^–1 fresh roots at the end of the experiment in the control, UV38, UV59, and UV88 treatments, respectively. The bacterial density also decreased with time in the control (UV0) although at a low rate. The results suggest that the attempt to control Pythium root rot by UV irradiation of recirculating solutions to remove P. aphanidermatum also affects the non-target bacterial populations in the rhizosphere. The interaction between the target pathogen and non-target bacterial flora in UV-treated hydroponics needs further investigation.