提高畜禽粪便沼气发酵产气量的研究进展

随着畜禽养殖规模的不断扩大,合理处理畜禽粪便是目前刻不容缓的问题。目前,沼气发酵是解决畜禽养殖场粪污处理和资源化利用的主要方式之一,且通过提高畜禽粪便沼气发酵产气量可以实现将粪便变废为宝的目的和达到资源利用最大化效果。综述了畜禽粪便沼气发酵产气的内在影响因素和外在影响因素对产气量的影响,为提高畜禽粪便的利用率和沼气发酵产气量提供参考依据。     

Closing the phosphorus loop in England: The spatio-temporal balance of phosphorus capture from manure versus crop demand for fertiliser

Every year 90 million tonnes of housed livestock manures are produced in the UK. This is a valuable reservoir of global phosphorus (P) and a point in the cycle where it is vulnerable to being lost from the terrestrial system. Improved manure management for the effective reuse of phosphorus is vital to simultaneously tackle a major source of water pollution and reduce our dependence on imported fertilisers. This paper quantifies, for the first time, the spatial and temporal challenges of recycling the required amount of manure P from areas of livestock production to areas of crop production in eight regions of England. The analysis shows that England has a P deficit and therefore the capacity to fully utilise the manure P on arable land, but that uneven spatial distribution of livestock poses a significant challenge to closing the P loop in agriculture. Two of the eight regions were shown to have surplus manure P, with the remaining six regions having P deficits, indicating that an annual export of 4.7 thousand tonnes P (2.8 million tonnes manure) must take place from the west to the east of the country each year to balance P supply and demand. Moreover, housed manure production peaks between October and February, requiring an excess of 23.0 thousand tonnes P (15 million tonnes manure) to be stored until it can be used for crop fertilisation from March onwards. The results demonstrate the scale of the challenge in managing manure P in an agricultural system that has separated livestock production from crop production, a pattern that is echoed throughout the developed world. To overcome the spatial and temporal challenges, a logistical system is recommended that will balance the nutrient potential (nitrogen and P content and availability) and pollution potential (eutrophication, greenhouse gas emissions, particulates and nitrous oxide from transport) for cost-effective and environmentally compatible redistribution of manure P from areas of surplus to areas of deficit, when required.     

Estimating influence of stocking regimes on livestock grazing distributions

Livestock often concentrate grazing in particular regions of landscapes while partly or wholly avoiding other regions. Dispersing livestock from the heavily grazed regions is a central challenge in grazing land management. Position data gathered from GPS-collared livestock hold potential for increasing knowledge of factors driving livestock aggregation patterns, but advances in gathering the data have outpaced advancements in analyzing and learning from it. We fit a hierarchical seemingly unrelated regression (SUR) model to explore how season of stocking and the location where cattle entered a pasture influenced grazing distributions. Stocking alternated between summer on one side of the pasture one year and fall on another side of the pasture the next year for 18 years. Waypoints were recorded on cattle for 50 d each year. We focused our analysis on the pasture's 10 most heavily grazed 4-ha units, because these units were the most prone to negative grazing impacts. Though grazing of the study units was always disproportionately heavy, it was much heavier with the summer than fall stocking regime: Bayesian confidence intervals indicate summer grazing of study units was approximately double the average fall grazing value. This is our core result, and it illustrates the strong effect stocking season or date or both can have on grazing distributions. We fit three additional models to explore the relative importance of stocking season versus location. According to this analysis, stocking season played a role, but stocking location was the main driver. Ostensibly minor factors (e.g. stocking location) can greatly influence livestock distributions.     

The biogeochemistry of selenium in Sunan grassland,Gansu, Northwest China,casts doubt on the belief that Marco Polo reported selenosis for the first time in history

In order to clarify the historic academic problem of whether or not livestock poisoning in ancient Suzhou of Northwest China, recorded by Marco Polo in 1295, was selenosis, this study deals with the biogeochemistry of selenium in Sunan County in the Hexi Corridor, which is part of ancient Suzhou in China. It was found that quite a number of farm animals had suffered from intoxication and died as a result of grazing poisonous grasses, mostly Oxytropis DC, Stellera chamaejasme, and Achnatheru inebrians. Toxic symptoms of livestock grazing on Oxytropis DC are similar to those of selenium toxicity, for instance, hair loss and hoof lesions as described by Marco Polo. Therefore, we thought that toxic grass, probably Oxytropis DC, led to the intoxication of livestock recorded by Marco Polo. Average Se concentrations in two members of this species were 0.112 +/- 0.038 mg/kg for the root of Oxytropis glabra, 0.102 +/- 0.027 mg/kg for the stem and leaf of Oxytropis glabra, and 0.066 +/- 0.009 mg/kg for Oxytropis ochrocephala. The average soil selenium concentration was 0.205 +/- 0.127 mg/kg on grassland producing Oxytropis glabra and 0.152 +/- 0.024 mg/kg on grassland producing Oxytropis ochrocephala. The average Se concentration in other plants was 0.076 mg/kg in the root of Ephedra monosperma Mey, 0.029 mg/kg in the root of Rheum palmatum, 0.031 mg/kg in the root of Stellera chamaejasme, 0.037 mg/kg in Achnatherum inebrians, and 0.067 mg/kg in forage grass (Achnatherum splendens ohwi). Selenium concentrations in soils and plants in Sunan County are far less than the thresholds causing selenium toxicity in livestock. As a result, this study concludes that the livestock poisoning recorded by Marco Polo in 1295 might not have been selenosis.     

上海禽畜业污染防治对策

发展禽畜业,是城市实施“菜篮子”工程的重要内容。本文通过对上海地区在发展禽畜业中所存在的主要环境问题的剖析,结合近年来禽畜业污染治理工作经验,提出了防治禽畜业污染的对策建议。     

规模化畜禽养殖环境影响及主要防治问题

我国规模化畜禽养殖业发展迅速 ,畜禽产生的粪尿及高浓度有机污水对周边环境造成污染 ,养殖业与种植业分离 ,畜禽粪尿还田量比例小 ,畜禽养殖业已成为农村一个主要的面源污染来源 ,当前急需解决畜禽养殖污染防治问题     

Regional-specific emission inventory for NH3, N2O, and CH4 via animal farming in South, Southeast, and East Asia

Ammonia, nitrous oxide, and methane emission from animal farming of South, Southeast, and East Asia, in 2000, was estimated at about 4.7 Tg NH₃–N, 0.51 Tg N₂O–N, and 29.9 Tg CH₄, respectively, using the FAO database and countries’ statistic databases as activity data, and emission factors taking account of regional characteristics. Most of these atmospheric components, up to 60–80%, were produced in China and India. Pakistan, Bangladesh, and Indonesia, which were large source countries next to China and India, contributed more than a few percent of total emission of each atmospheric component. The largest emission livestock were cattle whose contribution was considerably high in South, Southeast, and East Asia; more than one-fourth of ammonia and nitrous oxide emissions: more than half of methane emission. The other major livestock for nitrous oxide and ammonia emissions were pigs. For methane emission, buffaloes were second source livestock. To provide spatial distributions of these gases, the emissions of county and district level were allocated into each 0.5° grid by means of the weighting by high-resolution land cover datasets. The regions with considerable high emissions of all components were able to be found at the Ganges delta and the Yellow River basin. The spatial distributions for ammonia and nitrous oxide emissions were similar but had a substantial difference from methane distribution.     

Understanding the distribution of cattle production systems in the South American Chaco

ABSTRACT

Impacts of cattle production vary among different production systems, but data on their distribution is scarce for most world regions. In this work, we combine datasets on cattle vaccination locations and land cover in a regression framework to define and map major cattle production systems in the Argentinean Dry Chaco. We also explore how cattle occurrence relates to spatial determinants. Results indicate that the region harbors about 5.5 million heads. Cattle density was mainly described by the share of pasture (69.9%), cropland (28.1%) and aridity (23.8%). We identified 12-major cattle production systems: six cow-calf, three whole-cycle, and three fattening systems. Of these, four systems had high woodland cover (>85%). Data generated is available in a website. Understanding the distribution of cattle production systems is important to assess the environmental impacts of beef production at broad scales. Integrating vaccination data with land-cover information provides a promising avenue to identify livestock systems.     

云南粳稻耐低磷特性的主基因加多基因遗传分析

磷高效水稻培育是提高土壤潜在磷利用效率的一种途径,通过对云南粳稻耐低磷特性的主基因加多基因遗传分析,可以明确耐低磷特性主基因的存在、对数及遗传效应的大小,为磷高效育种提供理论依据。本试验通过云南主栽粳稻品种合系35(Oryza sativa)与耐低磷极强早旱谷(Oryza sativa)配制P1、P2、F1、F2或F3世代,在云南省农科院进行低磷胁迫试验,对耐低磷鉴定和主基因加多基因联合遗传分析,结果表明:早旱谷的分蘖和株穗产量基因受两对主效基因 多基因相互配合遗传控制的,两对主基因间存在上位性效应,两主基因间效应差异较大。分蘖力F2主基因遗传率为58.82%~72.13%,F3主基因遗传率为45.88%~57.96%;株穗产量F2主基因遗传率60.94%~83.08%,F3主基因遗传率为62.20%~75.80%。因此育种中应当充分重视主基因的利用,利用主基因应以第一对主基因的加性效应为主,对后代耐低磷性状的选择宜从F2代开始,杂交的后期世代也要注意耐性的选择。     

芹菜赖氨酸加苏氨酸抗性细胞系的选择

用４ｍｍｏｌ－／Ｌ浓度的赖氨酸加苏氨酸作为选择压，经相同浓度液体和固体选择培养基连续选择，从未经诱变处理的芹菜胚性愈伤组织筛选出一个稳定的赖氨酸加苏氨酸抗性细胞系并得到再生植株。抗性细胞系再生植株整株的氨基酸含量比对照组植株高１０倍左右。但是地上部分氨基酸含量，抗性细胞系再生植株比对照植株有所降低。两种植株叶片的细胞色素氧化酶同工酶谱有明显差异，抗性细胞系再生植株有４条谱带，而对照植株只有两条谱带