封育草地与弃耕地土壤碳氮固持及固持速率动态

研究植被恢复对土壤碳氮动态的影响,对了解陆地生态系统碳氮循环,应对全球温室效应具有重要意义。本研究以黄土高原丘陵区封育草地和弃耕地为对象,分别以放牧草地和农田为参照,对比分析了封育14年草地和弃耕地0~300 cm土层土壤有机碳(SOC)和土壤全氮(STN)储量、固持量及固持速率。结果表明,封育草地和弃耕地显著增加SOC储量,并且二者封育14年后SOC储量相同;在0~200 cm土壤中,封育14年草地与弃耕地STN储量相对于对照并无增加,0~300 cm土壤中,封育14年草地STN储量显著高于弃耕地(P<0.05);弃耕地SOC固持及固持速率显著高于封育草地,封育14年弃耕地SOC固持主要发生在0~140 cm表层土壤;0~100 cm土壤弃耕地STN固持及固持速率显著高于封育草地,0~300 cm土壤弃耕地STN固持及固持速率显著低于封育草地。以上结果表明,封育和弃耕均可显著提高土壤碳储量,并未明显提升土壤氮储量,弃耕地有较高的SOC固持量及固持速率。     

有机肥部分替代化肥对甘蓝生长、品质及土壤状况的影响

为探明化肥的减施并增施有机肥对甘蓝生长的影响,改善因施用过量化肥导致的蔬菜品质下降、肥料利用率降低和土地盐碱化等问题.本试验在冬闲田种植条件下,以鸡心甘蓝'探春'为试验材料,采用田间小区(100％化肥、75％化肥+25％有机肥、50％化肥+50％有机肥)试验方法研究化肥减量及有机肥增施对甘蓝生长、品质以及土壤状况的影响...     

果菜类蔬菜早熟性育种研究进展

早熟性是蔬菜作物育种的重要指标,对农业增产和农民增收意义重大。本文对果菜类蔬菜早熟性评价指标,早熟性相关农艺性状和早熟性育种方法三个方面的研究进展进行综述,并对基因工程辅助早熟育种进行了展望。     

Formulation challenges of organic poultry diets with readily available ingredients and limited synthetic methionine

Organic agriculture has increased greatly over the past several years as consumer demand for these products has risen. Organic meat production, including poultry, has grown especially quickly, resulting in increasingly stringent guidelines being put in place to ensure safe, uniform, and ideal products for these consumers. Feed formulation and manufacturing for organic poultry in the United States are strictly regulated by the United States Department of Agriculture National Organic Program. Currently, no synthetic amino acids are allowed to be used in organic poultry diets in the United States except for limited quantities of synthetic methionine since it is typically considered the first or second limiting amino acid in corn and soybean meal based poultry diets and it is a critical nutrient for maintaining bird growth and productive performance, especially regarding egg size in laying hens. The aim of the review herein is to discuss the impacts that current organic regulations on synthetic methionine have on diet formulation when using readily available ingredients. High levels of crude protein must be used to meet bird methionine requirements with this restriction in place, which both increases feed costs and can have negative impacts on bird health and on air quality and the surrounding environment due to increased ammonia emissions. Atypical feed formulation strategies have been explored to address this issue, including such methods as feeding alternative ingredients and providing forage materials. Another possibility would be to use an average lifetime maximum inclusion rate for synthetic methionine, which may allow for better flexibility to provide sufficient methionine throughout various phases of growth and production since the requirements of the bird change with age.     

Experimental Study of Multifunctional Acid to Deliquesce Stratum-jam

Aiming at the oneness of acid to deliquesce stratum-jam applied in scene at the present time,which is incapable of deliquescing complex dirty simultaneously,this article confects a new multifunctional O/W acid.This acid is an emulsified mixture containing 15% hydrochloric acid as its extro-posture,high dissolved oil as its internal state under the function of some proper exterior active reagent.It is composed of 0.5%OP-10,0.5%Span80,0.2%Tween80,0.06%imidazole and 0.01%twelve-alcohol,and the content of oil is equal to the acid content.It can be indicated that this acid has good ability of resolving mineral(CaCO_3,MgCO_3) and organic compound(mainly colloidal bitumen) when it was poured into the stratum,so that it can deliquesce oleic stratum-jam,resume and improve the penetrability of stratum,boost the ability of liquid flowing up.     

嫁接苗盘自动叠放装置研究与设计

为了提高嫁接作业的自动化水平,实现嫁接操作的流水线生产,设计了用于嫁接作业后期对载有嫁接苗的苗盘自动叠放的装置。该装置的机构部分包括由滚筒和线性模组构成的推送平台,以及由链条、链轮、机架构成的升降机构,采用PLC进行系统控制。试验表明,该装置运行稳定可靠,升降定位精度±1.0mm,最长动作周期26s,适用于现阶段蔬菜嫁接生产流水线。     

日光温室蔬菜智能化管理系统建模

随着精准农业的发展,智能化管理将在现代农业中广泛应用。针对智能化管理在日光温室蔬菜生产中尚鲜见报道的情况,该研究以日光温室蔬菜为研究对象,通过对日光温室环境特征的分析,设计一种基于无线传感器网络技术的低成本温室监测系统,用于监测温度、湿度、二氧化碳浓度等关键环境参数,并建立日光温室蔬菜系统,通过建模,建立不同子模块,实现蔬菜生产的智能化管理。     

宁夏荒漠草原不同土地利用方式对土壤活性有机碳的影响

以宁夏荒漠草原不同土地利用方式(耕地、弃耕地、草地和柠条地)的土壤为研究对象,测定了不同土层土壤有机碳和活性有机碳含量,分析了土壤活性有机碳占有机碳的比例,以期探寻不同土地利用方式对土壤活性有机碳的影响。结果表明:不同土地利用方式土壤总有机碳含量范围在1.78~6.17 g·kg^-1,具体表现为弃耕地>柠条地>草地>耕地。表层(0~5 cm)土壤有机碳含量显著高于深层(10~60 cm),说明荒漠草原土壤有机碳主要富集在表层;4种土地利用方式土壤易氧化有机碳含量为0.57~1.38 mg·g^-1,变化趋势具体表现为柠条地>草地>耕地>弃耕地,且柠条地在每个土层都高于其它3种土地利用方式;土壤可溶性有机碳含量范围为6.8~11.1 mg·kg^-1,变化趋势表现为草地>耕地>柠条地>弃耕地。土壤易氧化有机碳含量占有机碳的比例范围为13.7%~43.1%,大小排序为柠条地>耕地>草地>弃耕地;土壤可溶性有机碳含量占有机碳的比例范围为0.11%~0.48%,比例大小为耕地>草地>柠条地>弃耕地,耕地和草地中土壤可溶性有机碳含量占有机碳比例随着土壤深度的增加而减小,这与有机碳在耕地和草地中变化趋势一致。土地利用变化可以显著影响土壤活性有机碳的含量与分布,能够敏感的反映土壤碳库的变化,可以作为评价宁夏荒漠草原土壤质量和肥力的指标之一。     

长期秸秆掩埋配施氮肥对土壤细菌群落特征的影响

为揭示典型潮土微生物群落及其生态网络对秸秆还田的响应机制,选择长期小麦-玉米轮作下不同秸秆还田处理的试验地为对象,应用高通量测序和生态网络等方法,阐明秸秆掩埋配施不同氮肥后土壤细菌群落组成、细菌网络共存关系以及与土壤养分的关联。结果表明：（1）与秸秆移除且不施氮肥处理相比,秸秆还田配合常规施肥处理显著降低土壤pH,提高了土壤全氮、有机碳、有效磷、速效钾和硝态氮含量（P < 0.05）。秸秆掩埋配施氮肥有利于增加土壤养分含量。（2）不同秸秆还田方式和氮肥施用量处理的细菌Alpha多样性无显著差异,而细菌群落结构差异显著。pH、SOC和TN等因子驱动了细菌群落结构变异。酸杆菌门、变形菌门、拟杆菌门和绿弯菌门是潮土细菌群落的主要优势菌门。（3）共现网络分析得到4个主要的生态集群,均与土壤养分有显著相关性。模块1中物种丰度与SOC、TN、TP、NO3- -N、AP和AK呈极显著负相关（P < 0.001）,与pH呈极显著正相关（P < 0.001）;模块2和模块3中物种丰度与大部分养分含量呈正相关,与pH呈负相关。因此秸秆还田配施氮肥可以通过调节细菌互作关系,从而调控土壤肥力。研究结果可为秸秆的资源化利用和土壤施肥管理提供科学依据。     

有机与常规‘脐红’猕猴桃营养品质动态分析

通过对常规与有机‘脐红’猕猴桃,从刚采收的鲜果（可溶性固形物>6.5）在常温条件下贮存到腐烂,每间隔7天测定果实的硬度、可溶性固形物、总酸、固酸比和Vc含量,分析‘脐红’猕猴桃在后熟过程中营养品质变化动态,有利于指导人们在果实营养品质最佳时食用。结果显示,猕猴桃果实在从采收成熟度向生理成熟度过渡时,果实硬度和总酸都随时间的延长而下降,而可溶性固形物、固酸比和Vc含量先升高再降低;有机栽培果实的营养品质和贮藏品质都优于常规栽培。