指数施肥对斑叶稠李苗木生物量分配、光合作用及根系形态的影响

Biomass allocation,photosynthesis and root morphology of Padus maackii one-year-old bare-root seedlings under constant fertilization ( CF ) , exponential fertilization ( EF ) , doubled exponential fert...     

环境因子对树木细根生物量、生产与周转的影响

细根在森林生态系统 C平衡和养分循环中的重要作用已为大量研究所证实。树木有赖于细根吸收水分和养分,而细根对环境胁迫比较敏感,因此细根动态可指示环境变化,还可反映树木的健康状态。影响树木细根生产和周转的因子很多,本文在收集大量研究文献基础上,讨论了土壤养分、水分、p H值、温度等环境因子以及大气 CO2 增长对树木细根分布、生物量、生产和周转的影响,以期为我国开展细根生态学研究提供参考。     

北京市生物质能源化利用效益评价方法的研究

北京市能源消耗量大,提高生物质能利用率可缓解能源供应压力。为推动北京市生物质能源化利用产业的发展,需增进对其经济效益、社会效益和环境效益的综合认识。通过建立综合效益评价体系,运用层次分析法确定各评价指标权重,提出了北京市生物质能源化利用综合效益的评价方法,再以怀柔区发展生物质成型颗粒燃料为例,对其经济效益、社会效益和环境效益进行模糊评价,最后以怀柔杨宋成型颗粒燃料项目的数据为依据,进行分析验证,结果显示模糊综合评价的结论较为准确。     

不同水分管理旱直播水稻生长生理与节水效应

为了探讨东北黑土区水稻高效节水种植模式,于2017年在黑龙江省庆安县采用测坑微区试验,研究了旱直播对水稻光合特性、各器官生物产量、干物质累积速率、根冠比、伤流强度、产量水分利用效率(WUEy)、叶片水分利用效率(WUEl)和产量因子等的影响。试验设置了3个处理:滴灌旱直播(DH)、漫灌旱直播(MH)和常规插秧淹灌(CK),并以CK处理作为对照。结果表明:DH与MH处理的净光合速率Pn(分蘖末期除外)、蒸腾速率Tr、气孔导度Gs、以及叶、鞘、茎、穗等冠部干物质累积量、冠部干物质累积速率(分蘖中期至末期除外)、冠部最大累积速率在整个生育期均低于CK,但WUEl、根部干物质累积量(分蘖前期和中期除外)、根部干物质累积速率、根系活力(分蘖中期与拔节孕穗期除外)均高于CK。3个处理的胞间CO2浓度Ci整个生育期波动幅度不大。根部和总干物质最大累积速率及各生育期根冠比以DH最大,CK最小。DH与MH处理的千粒质量和结实率较CK下降不显著(P0.05),穗长和穗粒数下降显著(P0.05),有效穗数上升显著(P0.05)。DH较CK、MH分别节省灌溉用水63.88%和39.52%,WUEy分别提高2.66倍和1.64倍。滴灌旱直播种植不仅大幅度减少了灌溉用水量,显著提高了水稻的WUEy,而且具有较为可观的经济效益和显著的社会效益。研究结果可为东北黑土区水稻种植模式的选取提供技术支撑,对保障黑土区农业水土资源可持续利用具有重要意义。     

温室增温和灌溉量变化对棉花产量、 生物量及水分利用效率的影响

为了解气候变化对棉花生长的影响,在2011—2012 年,通过2 个温室进行增温和灌溉量变化的试验（一个温室用红外灯管增温,另一个不增温）,每个温室设田间灌溉量的0.7 倍、0.85 倍、1 倍、1.15 倍、1.3 倍5 个灌溉水平,研究增温和灌溉量对产量、生物量及水分利用效率的影响。结果表明,棉花生长季平均温度增加1~3.5℃有利于产量的增加,生长季、花期和铃期温度升高1℃,产量分别增加200.694、225.732、109.838 kg/hm2,而蕾期温度升高1℃却会降低产量162.814 kg/hm2。生长季和蕾期增温1℃会分别降低生物量1079.2、1179.8 kg/hm2,降低产量和干物质的水分利用效率3.4215、2.8098 kg/(hm2·mm)。灌溉倍数每增加1 倍,产量和生物量分别增加734.51、2242.3 kg/hm2。但增温会增加水分的消耗量,这对于处于干旱区的新疆来说是不利的。随着气候变暖,棉花耗水增大,产量增加。     

放牧强度对草地植物组成及植物生物量的影响

简述了放牧对草地植物组成及植物生物量的影响 ,提出从保护草地植物多样性及获得较高草地生产量的角度出发 ,应使草地承受适当的放牧压力     

Integrated agricultural management practice improves soil quality in Northeast China

ABSTRACT

Sustainable agricultural management practices have attracted increasing attention due to their significant roles in benefiting the functions and sustainability of agro-ecosystems. An integrated agricultural practice (IP) in a maize cropping system was developed by changing row spacing, adopting no-tillage and residue return in the Northeast China. A 12-year field study was carried out to evaluate the effect of IP and conventional practice (CP) on soil physical properties, microbial biomass and enzyme activity during the cropping season. The results showed that soil organic matter under IP was increased by 17.4, 9.88 and 6.69% in June, August and October, respectively, than CP. IP enhanced microbial biomass C (by 31.7, 25.1 and 30.4% in June, August and October) and activities of invertase, urease and phosphatase (by 27.2–38.0, 78.9–182 and 9.8–29.0%) compared to CP, possibly attributing to an increase in the soil microbial community. Furthermore, the soil pH, water content, nitrogen and phosphorus contents, microbial biomass and some specific enzyme activities varied with sampling time. It is concluded that IP improved soil quality and health by increasing organic matter content and microbial biomass and activity in maize field in Northeast China, suggesting that IP is a feasible management technology for sustainable agriculture.     

中国北方草原生物量年际动态

不同类型或同一类型不同区域的草地,其地上生物量在时间和空间上均存在差异,本文从不同的草地类型和时空尺度揭示植被生物量与环境因子间动态关系。结果显示,1)中国北方草原近30余年地上生物量总体呈下降趋势,水分条件较好的区域下降幅度较大,局部变化不显著,而近5年则呈持续增长趋势;2)时间序列上,年降水和年均温的交互作用对各区域草地地上生物量影响不显著;3)空间尺度上,温性草原年均温对地上生物量的影响较显著,高寒草原地上生物量的主要限制因子是降水。     

γ-戊内酯/水复合溶剂体系中金属硫酸盐催化半纤维素定向转化制备糠醛

以廉价金属硫酸盐为催化剂,在γ-戊内酯/水复合溶剂中催化半纤维素定向转化制备糠醛,糠醛得率高达50.2%,半纤维素液化转化率达95.5%。在γ-戊内酯/水复合溶剂中,以金属硫酸盐为催化剂进一步研究了直接催化木质纤维生物质原料玉米芯和竹粉定向转化制备糠醛,其中糠醛得率分别达39.5%、29.7%,木质纤维原料液化转化率分别达86.5%、80.5%。     

Floristic structure and sequestration potential of cashew agroecosystems in Africa: A case study from Cameroon

Agroecosystems are not only recognized by their high capacity of carbon storage and sequestration, they could also offer an opportunity of financial benefits in the event of payment for environmental services. The present study aimed to evaluate the carbon storage and describe the structure of cashew nut plantation. Three types of cashew stand were selected according to the age of plantations; we also used savannah as a treatment witness. Carbon stocks varied according to the age of plantations; 14.51 ± 0.306 t C/ha for plantations aged 0–10 yr; 34.78 ± 0.331 t C/ha for plantations aged 10–20 yr, and 40.02 ± 0.381 t C/ha for plantations aged over 20 yr. In the witness, we found 13.05 ± 0.177 t C/ha. These values were significantly different between the studied sites (p < 0.05). The mean values of the service of carbon sequestration also varied with the age of stands; $53.5/ha/yr (0–10 yr); $63.35/ha/yr (10–20 yr); $73.95/ha/yr (over 20 yr). In regard to carbon storage, $3279 are stored in these stands. These agroecosystems are also true carbon sinks. A development plan of such agroecosystems should be considered for the conservation of the species already endangered by anthropogenic activities on natural ecosystems.