川中浅丘农区坡地林农复合系统能量流的研究

对川中浅丘农区坡地林农复合系统和纯农地系统的能量流动过程进行了对比研究。结果表明，林农复合系统比对照农地系统具有更高的能量积累速率、光能利用率和辅助能转化率。     

川中浅丘农区坡地林农复合系统作物复种方式的综合效益评价

从能量转换效益、价值转换效益方面，对坡地林农复合系统１０种农作物复种方式进行了研究，并用层次分析法（ＡＨＰ）对各复种方式进行综合效益评价。结果表明，１０种复种方式中，小麦－花生的综合效益最高，５种复种方式较高，其余则较低。据此，提出了系列改进措施，供生产中应用。     

林农人工复合生态经济系统类型的初探——荡滩沼泽地的一种新型生态经营

近几年来,江苏里下河的荡滩综合开发出现了多种复合经营的类型,但是,如何在发挥生态经济效益的前提下,解决林业和其它产业之间的矛盾?有效的途径就是将林业和其它产业有机地结合起来,建立生产力高,综合效益大的林农复合生态经济系统,这不仅提高了土地和光能利用率,而且还提高了生物生产力和经济效益。本文就林农人工复合生态经济系统类型,以建湖为例进行分析评价。     

林农复合生态系统空气负离子浓度日进程比较

选择河南境内黄淮海平原主体区域的商丘市民权林场与梁园区黄河故道国家森林公园的林农复合生态系统,测定了生态系统1年内各月份的空气离子的日进程,分析其空气负离子的变化规律。结果表明：空气负离子浓度在不同林农复合生态系统中有一定差别,在系统内各点差别较小;杨树生态系统的日进程格局基本一致,表现出近似的＂U＂型,一天中的高峰值出现在09：00～10：00与17：00前后;泡桐生态系统的日进程虽然在09：00～10：00也出现高峰值,但随后表现出单调下降趋势。研究结果为林农复合生态系统生态效益计量提供基础依据。     

川中浅丘农区坡地林农复合系统作物复种方式的综合效益评价

从能量转换效益、价值转换效益方面，对坡地林农复会系统１０种农作物复种方式进行了研究，并用层次分析法（ＡＨＰ）对各复种方式进行综合效益评价。结果表明，１０种复种方式中，小麦一花生的综合效益最高，５种复种方式较高，其余则较低。据此，提出了系列改进措施，供生产中应用。     

全国“林农复合生态系统”学术讨论会在江苏省高邮县召开

中国林学会森林生态专业委员会和江苏省生态学会、江苏省林学会于1986年10月15日至19日在江苏省高邮县召开了全国“林农复合生态系统”学术讨论会。     

林农参与林业合作组织意愿及影响因素分析:基于河北、湖南和福建3省239户林农的实地调查

发展林业合作组织是深化集体林权制度改革的重大举措。基于河北、湖南和福建3省共239户林农的样本数据,运用Logistic模型对林农参与林业合作组织的意愿进行了分析。结果表明,林农参与林业合作组织意愿存在显著的区域差异,政策实施成熟完备、林业合作组织发展状况良好的地区,林农参与林业合作组织的意愿较高。林农受教育程度、是否参加过林业技术培训和教育、林业收入负向影响林农参与林业合作组织的意愿,而林地块数则正向影响林农参与合作组织的意愿。     

河西走廊园林绿地复合系统的夏季小气候效应

选择17种不同结构的园林绿地复合系统，对光照、温度、湿度和防尘效应进行测定，综合评价这17种园林绿地复合系统在改善城市气候方面的作用．结论是：乔、灌、草园林绿地复合系统在改善城市气候方面的作用最大，表4参7     

思茅市三家村农户庭园系统的能流和经济流研究

通过对三家村 6种农户庭园模式进行能流和经济流的系统研究 ,得出三家村 6种农户庭园系统的能量投入为 (98.4 8～ 174 .4 5 )× 10 10 J·hm-2 ,能量产出为 (10 1.6 6～ 15 8.5 2 )× 10 10 J·hm-2 ,能量产投比为(0 .88～ 1.4 1)∶1,并且以种植业为主的农户庭园 (模式Ⅰ、Ⅱ )的能量产投比高于以养殖业和副业为主的农户庭园系统 (模式Ⅵ、Ⅶ、Ⅸ ) ;三家村 6种农户庭园模式的经济产投比为 (1.0 0～ 1.35 )∶1,其高低次序是Ⅵ >Ⅶ >Ⅰ >Ⅱ >Ⅴ >Ⅸ ,6种农户庭园模式的经济产出为 2 32 7.9～ 980 3.4元。因此 ,三家村农户庭园系统是一个能量和经济的高投入高产出的人工生态系统     

利用农田系统中源汇型景观组合控制面源磷污染

通过田间调查、采样分析和小区试验,研究浙江省农田系统中源汇型景观组合及其控制面源磷污染的效果.调查表明,浙江省农田系统中源、汇配置的景观类型主要有:蔬菜地 - 稻田系统、蔬菜地 - 茭白田系统、桑园地 -稻田系统、旱地 - 稻田系统、高施肥稻田 - 低施肥稻田系统、农地(稻田、旱地) - 多塘系统、农地(稻田、旱地) - 植草水道(泥质排水沟)等.不同利用方式农田排水中磷含量有较大的差异,总磷平均含量为桑园>蔬菜地>稻田、小麦田、油菜田>休闲地>茭白田.小区试验表明,利用蔬菜地(旱地) - 稻田 - 茭白系统、蔬菜 - 稻田系统、桑园 - 稻田系统和蔬菜地 - (多)水塘系统可明显降低磷流失.建议对某些养分流失严重的农业流域,通过调整土地利用方式和增加养分汇型景观面积来控制农业面源污染.     

Birds as predators in tropical agroforestry systems

Insectivorous birds reduce arthropod abundances and their damage to plants in some, but not all, studies where predation by birds has been assessed. The variation in bird effects may be due to characteristics such as plant productivity or quality, habitat complexity, and/or species diversity of predator and prey assemblages. Since agroforestry systems vary in such characteristics, these systems provide a good starting point for understanding when and where we can expect predation by birds to be important. We analyze data from bird exclosure studies in forests and agroforestry systems to ask whether birds consistently reduce their arthropod prey base and whether bird predation differs between forests and agroforestry systems. Further, we focus on agroforestry systems to ask whether the magnitude of bird predation (1) differs between canopy trees and understory plants, (2) differs when migratory birds are present or absent, and (3) correlates with bird abundance and diversity. We found that, across all studies, birds reduce all arthropods, herbivores, carnivores, and plant damage. We observed no difference in the magnitude of bird effects between agroforestry systems and forests despite simplified habitat structure and plant diversity in agroforests. Within agroforestry systems, bird reduction of arthropods was greater in the canopy than the crop layer. Top-down effects of bird predation were especially strong during censuses when migratory birds were present in agroforestry systems. Importantly, the diversity of the predator assemblage correlated with the magnitude of predator effects; where the diversity of birds, especially migratory birds, was greater, birds reduced arthropod densities to a greater extent. We outline potential mechanisms for relationships between bird predator, insect prey, and habitat characteristics, and we suggest future studies using tropical agroforests as a model system to further test these areas of ecological theory.     

Effects of Land Use on Bird Species Richness in Sulawesi, Indonesia

Abstract:  There is still much debate over the potential value of land-use systems for the maintenance of tropical biodiversity. An increasing number of studies indicate that much forest biodiversity can also be found in the agricultural landscape matrix. Because there is little information on the potential value of land-use systems for tropical forest bird species, we conducted repeated point counts in near-primary forest, adjacent young secondary forest, modernized cacao agroforestry systems, and annual cultures at submontane elevations in central Sulawesi, Indonesia. Species richness decreased from natural forest and young secondary forest to agroforestry systems and annual cultures. Although species richness was similar between natural and young secondary forest, the number of endemic bird species was significantly lower in second-growth forest. Species composition gradually changed as the habitat changed from natural to secondary forest, agroforestry systems, and annual cultures. Despite close proximity to near-primary forest, the agroforestry systems studied supported only a few small frugivorous-nectarivorous species. Our results suggest that secondary forest could play an important role in the conservation of many Sulawesi bird species, but, although suitable for colonization, its potential to sustain populations over the long term is unknown. Improvement of the landscape matrix for biodiversity conservation through secondary habitats therefore seems desirable to enlarge the ranges of forest species, but the fight against land conversion within protected areas of the region should be of much higher importance, at least at present.     

农田杂草种子库研究综述

农田杂草的生长明显地依赖于活动种子库。文章综述了国内外农田杂草种子库的研究进展,主要分析了除草方式、耕作方式以及农作方式对农田杂草种子库的影响。现有的研究表明,化学与机械结合的防治措施能更好地控制杂草;免耕使分布在土壤表层的种子比例提高;有机栽培体系下杂草种子库最大。最后,提出了国内在该领域中的研究方向。     

农林复合经营在农村可持续发展中的地位和作用

论述了农林复合经营的概念及内涵，现代农林复合经营崛起的历史必然性，并通过对农林复合经营在农林牧相互促进、协调发展方面，实现经济、社会、生态三大效益统一的论述，充分揭示了其在农村可持续发展中的重要地位和作用。     

草莓有机与无机种植系统能流和经济流的比较研究

通过３年田间试验，比较分析了草莓有机与无机种植系统的能流、经济流及对土壤环境的影响。结果表明，有机系统草莓产量、经济效益均高于无机系统；有机系统能量产投比仅为无机系统的２５％，但投入的绝大部分为可再生能源；有机系统土壤有机质、微生物量高于无机系统，具有更好的土壤条件     

紫色土丘陵区农用地土壤水分动态变化规律研究

依据定位观测数据，对紫色土丘陵区农用地土壤水分的动态变化规律进行了初步研究。结果表明，该区农用地土壤水分的季节变化主要受降水、蒸发和土地利用状况的影响，呈现出明显的三峰三谷型；垂直梯度变化由于受降雨入渗分布与土壤水分向上蒸发的综合作用，基本表现为增长型。并利用标准差和变异系数对土壤水分的垂直梯度变化进行了具体描述和层次划分。最后，通过分析该地区典型农作物及其不同栽培方式对农用地土壤水分的影响，认为优化农作物栽培方式是提高紫色土丘陵区农用地土壤水分利用效率和减少水土流失的有效途径。     

Advances in pollination ecology from tropical plantation crops

Although ecologists traditionally focus on natural ecosystems, there is growing awareness that mixed landscapes of managed and unmanaged systems provide a research environment for understanding basic ecological relationships on a large scale. Here, we show how tropical agroforestry systems can be used to develop ideas about the mechanisms that influence species diversity and subsequent biotic interactions at different spatial scales. Our focus is on tropical plantation crops, mainly coffee and cacao, and their pollinators, which are of basic ecological interest as partners in an important mutualistic interaction. We review how insect-mediated pollination services depend on local agroforest and natural habitats in surrounding landscapes. Further, we evaluate the functional significance of pollinator diversity and the explanatory value of species traits, and we provide an intercontinental comparison of pollinator assemblages. We found that optimal pollination success might be best understood as a consequence of niche complementarities among pollinators in landscapes harboring various species. We further show that small cavity-nesting bees and small generalist beetles were especially affected by isolation from forest and that larger-bodied insects in the same landscapes were not similarly affected. We suggest that mixed tropical landscapes with agroforestry systems have great potential for future research on the interactions between plants and pollinators.     

Spatial pattern and ecological process in the coffee agroforestry system

The coffee agroforestry system provides an ideal platform for the study of spatial ecology. The uniform pattern of the coffee plants and shade trees allows for the study of pattern generation through intrinsic biological forces rather than extrinsic habitat patchiness. Detailed studies, focusing on a key mutualism between an ant (Azteca instabilis) and a scale insect (Coccus viridis), conducted in a 45-ha plot in a coffee agroforestry system have provided insights into (1) the quantitative evaluation of spatial pattern of the scale insect Coccus viridis on coffee bushes, (2) the mechanisms for the generation of patterns through the combination of local satellite ant nest formation and regional control from natural enemies, and (3) the consequences of the spatial pattern for the stability of predator-prey (host-parasitoid) systems, for a key coccinelid beetle preying on the scale insects and a phorid fly parasitoid parasitizing the ant.     

Biomass and carbon budgeting of sustainable agroforestry systems as ecosystem service in Indian Himalayas

Adoption of agroforestry is paramount as a climate change mitigation and adaptation strategy. The assessment of plant biomass is crucial for understanding the vulnerability of biological systems to climate change. In the present study, agroforestry systems viz., agrisilviculture (AS), agrihorticulture (AH), agrihortisilviculture (AHS) and agrisilvihorticulture (ASH) were investigated for biomass production and carbon stock in vegetation as well as in soil in the Indian central Himalaya along the elevation i.e. E₁ (<1100 m), E₂ (1100–1400 m), E₃ (1400–1700 m), E₄ (1700–2000 m) and E₅ (>2000 m). Mean aboveground and belowground biomass were 73.9% and 26.1%, respectively, of total biomass (64.4 t ha^?1) in agroforestry systems. Fodder and/or timber trees accounted for 31% (in AHS) to 74% (in AS) of total biomass, while fruit trees accounted for 18% (in ASH) to 73% (in AH) of total biomass. The contribution of agriculture crops to total biomass fluctuated between 19% (in ASH) and 26% (in AH). Total vegetation biomass, soil carbon and total carbon density in agroforestry systems increased significantly along the elevation, with maximum biomass at elevation E₅ (32.0 t ha^?1, 64.7 t C ha^?1 and 96.7 t C ha^?1). Total biomass of vegetation among agroforestry systems differed significantly. Soil carbon stock was highest in AHS (59.5 t C ha^?1) and total carbon density (vegetation + soil) was highest in ASH (93.0 t C ha^?1). Thus, in Indian Himalayas, vegetation biomass, carbon stock, soil and total carbon (vegetation + soil) stock increased along the elevation.

Abbrviations: AG: aboveground; BG: belowground; WD: wood density; VOB: volume over bark; BEF: biomass expansion factor; AS: agrisilviculture; AH: agrihorticulture; ASH: agrisilvihorticulture; AHS: agrihortisilviculture; E: elevation; C: carbon; CO₂: carbon-di-oxide; IPCC: Intergovernmental Panel on Climate Change; DBH: diameter at breast height; AGBD: aboveground biomass density; BGBD: belowground biomass density; GSVD: growing stock volume density