植物养分高效利用机制研究进展

长期进化和环境适应导致不同植物或同种植物不同基因型间养分利用效率(NUE)差异明显,研究筛选植物养分高效利用基因型至关重要,其极大的增产潜力可补充代替传统植物栽培方法所需的能源.目前人们对于植物NUE概念的理解存在一定差异,造成众多研究成果缺乏可比性.通过对植物NUE的概念及其描述方式难以统一原因的分析,提出人工林NUE应采用干材生物量与林分养分总量的比值表示.综合评述了植物体内养分高效利用及植物对生长介质中养分高效吸收的生物生理学适应性机制.对养分逆境植物养分高效利用适应性策略的整个过程进行了描述,进一步阐明了Ca2+在化学通讯机制中的生物功能,指出Ca2+可能是启动植物养分高效利用挽救机制的主要调控因子,并就该领域今后研究工作的特点作了展望.     

中国土壤和植物养分管理现状与改进策略

针对当前我国农业生产面临增肥不增产、土壤养分过量累积、化肥施用过量和养分利用效率下降等重大问题,本文综述了中国土壤养分与植物营养状况的历史演变和研究进展,提出中国植物营养科学研究应在跟踪国际科学前沿的同时,紧密结合中国农业生产实际,通过大幅度提高养分效率和作物产量为农业可持续发展做出应有的贡献。     

中国土壤和植物养分管理现状与改进策略

针对当前我国农业生产面临增肥不增产、土壤养分过量累积、化肥施用过量和养分利用效率下降等重大问题, 本文综述了中国土壤养分与植物营养状况的历史演变和研究进展, 提出中国植物营养科学研究应在跟踪国际科学前沿的同时, 紧密结合中国农业生产实际, 通过大幅度提高养分效率和作物产量为农业可持续发展做出应有的贡献。     

土壤微生物在植物获得养分中的作用

大量施用化肥是当今农业的一个重要特征。化肥为粮食增产做出了巨大贡献,同时也带来一系列问题,如土壤酸化、水体富营养化、温室气体排放、资源耗竭等,直接威胁着农业可持续发展。土壤微生物是陆地生态系统植物多样性和生产力的重要驱动者,直接参与了植物获得养分和土壤养分循环两个过程。因此,通过调控土壤微生物的功能,有望降低农业对化肥的过分依赖。介绍了共生固氮菌、菌根真菌和根际促生菌对植物获得养分能力的影响及其机制,分析了土壤微生物对土壤氮、磷循环的影响及其与土壤养分生物有效性、养分损失的关系。依据这些知识,提出了改善植物营养、降低化肥施用的土壤微生物途径。虽然大量试验已证明了土壤微生物在改善植物营养中的重要作用,但是大面积应用土壤微生物技术来改善植物营养还存在不少问题。随着以后对这方面研究的加强以及上述问题的不断解决,土壤微生物有望在降低化肥施用量和维持农业可持续发展中做出重要贡献。     

黄土高原集水农业研究进展

回顾了黄土高原集水农业理论与技术体系的研究成果．分析评价了集水农业的研究进展。随着黄土高原集水农业研究方法的改进、研究内容的深入、研究领域的扩充．提出了广义性集水农业研究范畴。在黄土高原集水农业理论研究的基础上．应加强微集雨微灌溉应用技术、现代集雨技术、计算机控制技术与集雨网络等高新技术手段的技术集成．以提高雨水汇集与利用效率。同时．黄土高原集水农业的研究已经从微生境条件下的农业生态系统延伸至区域生态环境保育。利用汇集雨水合理调配生态用水．进行小流域综合治理。农林牧综合发展。生态环境重建的集水型生态农业是黄土高原集水农业的发展趋势。     

Pest problems: The view of the New Zealand Forest Owners' Association

Abstract

Plantation forests are very important to the New Zealand economy. They cover 1.3 million hectares (5% of the total land area) of New Zealand; 72% of all planted production forests are in the North Island, 40% in the central North Island. The total log volume cut is 14.8 million m³/yr, and the foreign exchange earnings from plantation forestry is $1.9 billion.     

Forest biotechnology: Innovative methods, emerging opportunities

Summary The productivity of plantation forests is essential to meet the future world demand for wood and wood products in a sustainable fashion and in a manner that preserves natural stands and biodiversity. Plantation forestry has enormously benefited from development and implementation of improved silvicultural and forest management practices during the past century. A second wave of improvements has been brought about by the introduction of new germplasm developed through genetics and breeding efforts for both hardwood and conifer tree species. Coupled with the genetic gains achieved through tree breeding, the emergence of new biotechnological approaches that span the fields of plant developmental biology, genetic transformation, and discovery of genes associated with complex multigenic traits have added a new dimension to forest tree improvement programs. Significant progress has been made during the past five years in the area of plant regeneration via organogenesis and somatic embryogenesis (SE) for economically important tree species. These advances have not only helped the development of efficient gene transfer techniques, but also have opened up avenues for deployment of new high-performance clonally replicated planting stocks in forest plantations. One of the greatest challenges today is the ability to extend this technology to the most elite germplasm, such that it becomes an, economically feasible means for large-scale production and delivery of improved planting stock. Another challenge will be the ability of the forestry research community to capitalize rapidly on current and future genomics-based elucidation of the underlying mechanisms for important but complex phenotypes. Advancements in gene cloning and genomics technology in forest trees have enabled the discovery and introduction of value-added traits for wood quality and resistance to biotic and abiotic stresses into improved genotypes. With these technical advancements, it will be necessary for reliable regulatory infrastructures and processes to be in place worldwide for testing and release of trees improved through biotechnology. Commercialization of planting stocks, as new varieties generated through clonal propagation and advanced breeding programs or as transgenic trees with high-value traits, is expected in the near future, and these trees will enhance the quality and productivity of our plantation forests.     

三峡库区不同土地利用方式的养分流失研究

通过两年的定位实验,研究了三峡库工我５种代表性土地利用方式对养分流失的重要性。寝实验表明,不同土地利用方式的养分年输出总量有较大的变异,其变化趋势为坡地农田＞梯田农田＞梯田农田＞坡地果园。不同土地利用方式下,降雨量和降雨强度与系统径流量和含沙量的相关性都达到５％显著性水平。不同土地利用方式,其径流养分输出占系统养分总输出的比例明显不同。土地利用方式对系统Ｎ、Ｐ、Ｋ的径流输出影响显著。三峡库区脆弱生     

Predicting the profile of nutrients available for absorption: from nutrient requirement to animal response and environmental impact

Current feed evaluation systems for dairy cattle aim to match nutrient requirements with nutrient intake at pre-defined production levels. These systems were not developed to address, and are not suitable to predict, the responses to dietary changes in terms of production level and product composition, excretion of nutrients to the environment, and nutrition related disorders. The change from a requirement to a response system to meet the needs of various stakeholders requires prediction of the profile of absorbed nutrients and its subsequent utilisation for various purposes. This contribution examines the challenges to predicting the profile of nutrients available for absorption in dairy cattle and provides guidelines for further improved prediction with regard to animal production responses and environmental pollution.The profile of nutrients available for absorption comprises volatile fatty acids, long-chain fatty acids, amino acids and glucose. Thus the importance of processes in the reticulo-rumen is obvious. Much research into rumen fermentation is aimed at determination of substrate degradation rates. Quantitative knowledge on rates of passage of nutrients out of the rumen is rather limited compared with that on degradation rates, and thus should be an important theme in future research. Current systems largely ignore microbial metabolic variation, and extant mechanistic models of rumen fermentation give only limited attention to explicit representation of microbial metabolic activity. Recent molecular techniques indicate that knowledge on the presence and activity of various microbial species is far from complete. Such techniques may give a wealth of information, but to include such findings in systems predicting the nutrient profile requires close collaboration between molecular scientists and mathematical modellers on interpreting and evaluating quantitative data. Protozoal metabolism is of particular interest here given the paucity of quantitative data.Empirical models lack the biological basis necessary to evaluate mitigation strategies to reduce excretion of waste, including nitrogen, phosphorus and methane. Such models may have little predictive value when comparing various feeding strategies. Examples include the Intergovernmental Panel on Climate Change (IPCC) Tier II models to quantify methane emissions and current protein evaluation systems to evaluate low protein diets to reduce nitrogen losses to the environment. Nutrient based mechanistic models can address such issues. Since environmental issues generally attract more funding from governmental offices, further development of nutrient based models may well take place within an environmental framework.     

昆虫共生细菌研究进展

昆虫体内定殖着大量微生物,经过漫长协同进化,昆虫与这些微生物构建了共生体系,这些昆虫共生微生物参与整个生态过程,对于生态系统中物质转化与交换、能量流动与利用、信息传递与调控等均发挥着重要作用。昆虫共生细菌具有丰富的物种多样性;昆虫与其共生细菌之间通过化学机制、生理机制、生态学机制和遗传学机制构建复杂的共生体系;昆虫为细菌提供稳定的生境并共享特定的代谢途径,共生细菌则协助宿主营养代谢,提供食物中缺乏的养分,促进昆虫生长和繁殖;通过分泌抗菌肽、毒素等,细菌能增强昆虫对寄生物的防御能力和抗病性,并通过调节昆虫对非生物因子的抗逆性和耐药性,扩大昆虫的生态位。昆虫共生细菌在农林牧渔业可持续安全生产与医药研发等领域具有应用潜力和广阔的发展前景。     

Plant nutrition in the 20th and perspectives for the 21st century

This paper briefly presents the knowledge of plant nutrition in 1900 and its expansion since then in two areas - the discovery of the micronutrients and the absorption of nutrients from soils.Application of macro- and micronutrient fertilizers has contributed substantially to the huge increase in world food production experienced this century. In developed countries, excessive fertilizer use has led to serious problems of nutrient pollution; here, plant nutritionists will be concerned with monitoring nutrient status of crops and soils to maintain crop production with minimum loss of nutrients to the environment, and development of cultivars with high nutrient efficiency in soils with luxury supplies of nutrients.In many developing countries, soil infertility limits productivity; here, plant nutritional research can raise productivity by diagnosis of nutrient deficiencies and toxicities of crops on previously unfertilized soils, their correction with minimal fertilizer and treatment costs, and development of cultivars with high nutrient efficiency in deficient soils and high tolerance of natural toxicities.The pre-occupation of developed countries with pollution is blinding them to the urgent needs of developing countries for fertilizers and fertilizer research to increase crop production ha-1 as an alternative to clearing more land.     

Genetic engineering in conifer forestry: Technical and social considerations

Summary Over the past 20 years, DNA-based biotechnologies have been applied to agricultural production and many crops with new and useful attributes have been cultivated in various countries. The adoption of this new technology by farmers has been swift, and benefits in terms of increased production per unit land and environmental benefits are becoming obvious. In forestry, the application of biotechnology is somewhat lagging behind and to date there are no commercial plantations with genetically modified trees. However, most tree species used in plantation forestry have been genetically transformed, and results demonstrate the successful and correct expression of new genes in these plants. At the same time, this new technology is being viewed with concern, very similar to the concerns voiced over the use of genetic engineering in agriculture. This paper discusses some of the issues involved for world forestry, with particular focus on future demand for timber and timber products and how modern biotechnology can contribute to meet the growing demand. Tree genetic engineering techniques will be outlined, and results reviewed for a number of species. Concerns over the use of this new technology will be described and analyzed in relation to scientific considerations.     

果粮间作模式优化调控研究Ⅳ:系统养分管理及其优化对策探讨

我国农林复合经营(Ａｇｒｏｆｏｒｅｓｔｒｙ)历史悠久,有许多实践已证明的成功模式类型,果农间作就是分布面积最大的代表类型[1～3,8]。目前,已有的研究主要集中于类型划分[1,2,8]生态和经济效益定量观测和评价[1～10]、模式的建立[3,4,8]、资源的经营利用特点[1,2,5～10]等方面,基本上都是针对现状而进行,尚缺乏对进一步提高果农间作模式效益的优化调控研究。果粮间作条件下最大的矛盾是果与粮相互竞争可利用资源(光、热、水和土壤养分等)而导致粮食的减产和土壤的过渡利用[1,6,7]。如何优化调控,以进一步提高生态和经济效益,达到提高土地…     

Nitrogen fixation in rice systems: state of knowledge and future prospects

Rice is the most important cereal crop. In the next three decades, the world will need to produce about 60% more rice than today's global production to feed the extra billion people. Nitrogen is the major nutrient limiting rice production. Development of fertilizer-responsive varieties in the Green Revolution, coupled with the realization by farmers of the importance of nitrogen, has led to high rates of N fertilizer use on rice. Increased future demand for rice will entail increased application of fertilizer N. Awareness is growing, however, that such an increase in agricultural production needs to be achieved without endangering the environment. To achieve food security through sustainable agriculture, the requirement for fixed nitrogen must increasingly met by biological nitrogen fixation (BNF) rather than by using nitrogen fixed industrially. It is thus imperative to improve existing BNF systems and develop N₂-fixing non-leguminous crops such as rice. Here we review the potentials and constraints of conventional BNF systems in rice agriculture, as well as the prospects of achieving in planta nitrogen fixation in rice.     

Can reforested and plantation habitats effectively conserve SW China’s ant biodiversity?

China has a long history of deforestation and environmental degradation. Because China is also lacking biological reserves, off-reserve conservation is a major contributor to its conservation efforts. Off-reserve conservation in China is primarily being achieved within afforestation and low-intensity agriculture. We compare ant diversity of three habitats: Natural Forest, Disturbed Forest and Plantation, to assess the conservation potential of these multiple land uses. Natural Forest consistently had the greatest plot-level species richness of the three habitats, but this pattern was only statistically significant for arboreal ants. Functional group profiles showed that Specialist Predators were significantly more represented in Disturbed Forest, Opportunists were significantly more represented in one Plantation site, coupled with a lack of Subordinate Camponotini, and Generalised Myrmicinae were more represented in a second Plantation site coupled with a complete lack of Cryptic Species. Multivariate analysis revealed significant differences of ant species composition between habitats. Within IndVal analyses, 17 species were associated with Natural Forest and nine with Plantation. No species were associated with Disturbed Forest. Reforestation and low-intensity agriculture clearly provide habitat for many species, but will not necessarily substitute for undisturbed habitat for many other species, especially specialised species. China’s off-reserve conservation could be enhanced by developing a greater understanding of agricultural practices and reforestation techniques that promote species diversity, especially for uncommon, threatened and specialised species.     

Comparative phosphate solubilizing efficiency of psychrotolerant <Emphasis Type="Italic">Pseudomonas jesenii</Emphasis> MP1 and <Emphasis Type="Italic">Acinetobacter</Emphasis> sp. ST02 against chickpea for sustainable hill agriculture

Phosphorus (P) is an important plant nutrient for agricultural production. Adding phosphorus fertilizer to the soil not only increases the cost but also create environmental destruction. Therefore, the use of phosphate solubilizing bacteria (PSB) could be an eco-friendly approach for sustainable agricultural development. Large scale field trial study was conducted to explore inherent phosphate solubilizing potential of Himalayan psychrotrophic bacterial strains Pseudomonas jesenii MP1 and Acinetobacter sp. ST02 against native chickpea to achieve agricultural sustainability in traditional mountain agro-ecosystems. Both the strainsMP1 and STO2 were able to solubilise a maximum of 398.14 μg mL^?1 and 329.9 μg mL^?1 of P, respectively. Besides enhancing Chickpea seed germination of 92% (MP1) and 85% (STO2); both have shown a significant increment in plant agronomical as well as biochemical parameters with respect to their respective controls. The maximum grain yield of 26.23 kg and harvesting index 55.69 was observed for MP1 along with 40 Kg P2O5 ha^?1 thereby, indicating the use of bio-inoculants with recommended dose of phosphate fertilizers to promote crop production. Further, contrary to chemical phosphatic fertilizers, they need to apply only once in the field and persist till the end of crop maturity. In the present scenario, they can be explored as natural “P” resource for high altitude agriculture; therefore, additional impetus in their bio-formulation will be a step forward towards sustainable hill agriculture systems and holistic growth.     

Sugarcane and Eucalyptus plantation equally limit the movement of two forest‐dependent understory bird species

Habitat fragmentation results in landscape configuration, which affects the species that inhabit it. As a consequence, natural habitat is replaced by different anthropogenic plantation types (e.g. pasture, agriculture, forestry plantations and urban areas). Anthropogenic plantations are important for biodiversity maintenance because some species or functional groups can use it as a complementary habitat. However, depending on plantation permeability, it can act as a barrier to the movement of organisms between habitat patches, such as forest fragments, reducing functional connectivity for many species. Anthropogenic plantations are becoming the most common land use and cover type in the Anthropocene and biodiversity conservation in fragmented landscapes requires information on how different plantation types affect the capacity of the species to move through the landscape. In this study, we evaluated the influence of the type and structure of plantations on the movement of two forest‐dependent understory bird species – plain antvireo (Dysithamnus mentalis) and flavescent warbler (Myiothlyps flaveola) – within a highly fragmented landscape of Atlantic Forest hotspot. Knowing that forestry plantation is assumed to be more permeable to dependent forest bird species than open ones, we selected six study areas containing a forest fragment and surrounding plantation: three with sugarcane plantation and three with Eucalyptus sp. plantation. We used playback calls to stimulate the birds to leave forest fragments and traverse the plantations. Control trials were also carried out inside the forest fragments to compare the distances crossed. We observed that individuals moved longer distances inside forest than between plantation types, which demonstrate that plantations do constrict the movements of both species. The two plantation types equally impeded the movements of the species, suggesting the opposite of the general assumption that forestry plantations are more permeable. Our results indicate that, for generalist species, plantation type does not matter, but its presence negatively impacts movement of these bird species. We highlight that plantations have negative influences on the movements of common bird species, and discuss why this is important when setting conservation priorities.     

Comparison of energy evaluation systems and a mechanistic model for milk production by dairy cattle offered fresh grass-based diets

Grass-based diets are of increasing social-economic importance in dairy cattle farming, but their low supply of glucogenic nutrients may limit the production of milk. Current evaluation systems that assess the energy supply and requirements are based on metabolisable energy (ME) or net energy (NE). These systems do not consider the characteristics of the energy delivering nutrients. In contrast, mechanistic models take into account the site of digestion, the type of nutrient absorbed and the type of nutrient required for production of milk constituents, and may therefore give a better prediction of supply and requirement of nutrients. The objective of the present study is to compare the ability of three energy evaluation systems, viz. the Dutch NE system, the agricultural and food research council (AFRC) ME system, and the feed into milk (FIM) ME system, and of a mechanistic model based on Dijkstra et al. [Simulation of digestion in cattle fed sugar cane: prediction of nutrient supply for milk production with locally available supplements. J. Agric. Sci., Cambridge 127, 247–60] and Mills et al. [A mechanistic model of whole-tract digestion and methanogenesis in the lactating dairy cow: model development, evaluation and application. J. Anim. Sci. 79, 1584–97] to predict the feed value of grass-based diets for milk production. The dataset for evaluation consists of 41 treatments of grass-based diets (at least 0.75 g ryegrass/g diet on DM basis). For each model, the predicted energy or nutrient supply, based on observed intake, was compared with predicted requirement based on observed performance. Assessment of the error of energy or nutrient supply relative to requirement is made by calculation of mean square prediction error (MSPE) and by concordance correlation coefficient (CCC). All energy evaluation systems predicted energy requirement to be lower (6–11%) than energy supply. The root MSPE (expressed as a proportion of the supply) was lowest for the mechanistic model (0.061), followed by the Dutch NE system (0.082), FIM ME system (0.097) and AFRC ME system (0.118). For the energy evaluation systems, the error due to overall bias of prediction dominated the MSPE, whereas for the mechanistic model, proportionally 0.76 of MSPE was due to random variation. CCC analysis confirmed the higher accuracy and precision of the mechanistic model compared with energy evaluation systems. The error of prediction was positively related to grass protein content for the Dutch NE system, and was also positively related to grass DMI level for all models. In conclusion, current energy evaluation systems overestimate energy supply relative to energy requirement on grass-based diets for dairy cattle. The mechanistic model predicted glucogenic nutrients to limit performance of dairy cattle on grass-based diets, and proved to be more accurate and precise than the energy systems. The mechanistic model could be improved by allowing glucose maintenance and utilization requirements parameters to be variable.     

Will genomics guide a greener forest biotech?

Forest biotechnology has been increasingly associated with wood production using plantation forestry, and has stressed applications that use pedigreed material and transgenic trees. Reasons for this emphasis include limitations of available technologies to conform to underlying genetic features of undomesticated forest tree populations. More recently, genomic technologies have rapidly begun to expand the scope of forest biotechnology. Genomic technologies are well suited to describe and make use of the abundant genetic variation present in undomesticated forest tree populations. Genomics thus enables new research and applications for conservation and management of natural forests, and is a primary technological driver for new research addressing the use of forests trees for carbon sequestration, biofuels feedstocks, and other 'green' applications.     

Co‐benefits,trade‐offs,barriers and policies for greenhouse gas mitigation in the agriculture,forestry and other land use (AFOLU) sector

The agriculture, forestry and other land use (AFOLU) sector is responsible for approximately 25% of anthropogenic GHG emissions mainly from deforestation and agricultural emissions from livestock, soil and nutrient management. Mitigation from the sector is thus extremely important in meeting emission reduction targets. The sector offers a variety of cost‐competitive mitigation options with most analyses indicating a decline in emissions largely due to decreasing deforestation rates. Sustainability criteria are needed to guide development and implementation of AFOLU mitigation measures with particular focus on multifunctional systems that allow the delivery of multiple services from land. It is striking that almost all of the positive and negative impacts, opportunities and barriers are context specific, precluding generic statements about which AFOLU mitigation measures have the greatest promise at a global scale. This finding underlines the importance of considering each mitigation strategy on a case‐by‐case basis, systemic effects when implementing mitigation options on the national scale, and suggests that policies need to be flexible enough to allow such assessments. National and international agricultural and forest (climate) policies have the potential to alter the opportunity costs of specific land uses in ways that increase opportunities or barriers for attaining climate change mitigation goals. Policies governing practices in agriculture and in forest conservation and management need to account for both effective mitigation and adaptation and can help to orient practices in agriculture and in forestry towards global sharing of innovative technologies for the efficient use of land resources. Different policy instruments, especially economic incentives and regulatory approaches, are currently being applied however, for its successful implementation it is critical to understand how land‐use decisions are made and how new social, political and economic forces in the future will influence this process.