2010 Vol. 18, No. 1

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Effect of soil temperature, moisture and NH4+-N concentration on nitrification and nitrification-induced N2O emission
WANG Gai-Ling, CHEN De-Li, LI Yong
2010, 18(1): 1-6. doi: 10.3724/SP.J.1011.2010.00001
Abstract(3120) PDF(2472)
Abstract:
Nitrification is a major source of N2O. However, there is little information on how environmental and soil variables affect N2O emission during nitrification. A fixed fraction rate is often used to estimate N2O emission from soil induced by nitrification in most available models. To that end, an incubation experiment was conducted to investigate the effect of soil moisture, temperature and NH4+-N concentration on nitrification and nitrification-induced N2O emission in acidic sandy-loam soils in southeastern Australia. The Michaelis-Menten equation was used to express nitrification dynamics while the Least Square method was used to derive the maximum velocity of nitrification and N2O fraction of nitrification. A series of algorisms were proposed to describe the relationships between nitrification velocity/N2O production and the driving factors of NH4+-N concentration, soil moisture and temperature. Results show exponentially enhanced nitrification velocity with increasing soil temperature. Nitrification velocity increases when soil water-filled porosity (WFPS) increases from 20% to 40%, reaches its peak at around 40%, and then declines at 60% WFPS. NH4+-N concentration is negatively correlated with nitrification velocity. By fitting with Least Square, a maximum reaction velocity (Vmax) is achieved at 6.67 mg·kg-1·d-1 for the sandy-loam soil. N2O emission fraction of nitrification declines with increasing incubation temperature. Soil NH4+-N concentration is slightly positively correlated with soil nitrification emitted N2O. Under 20% and 40% WFPS, measured N2O emission fraction of nitrification range is 0.43%~1.50%, with a maximum fraction of 3.03% obtained by fitting Least Square. However, this method cannot reliably assess the impact of soil WFPS on N2O emission fraction of nitrification,because N2O emission increases exponentially when WFPS increases to 60%, indicating that soil denitrification might occur at 60% WFPS.
Re-estimation of direct nitrous oxide emission from agricultural soils of China via revised IPCC2006 guideline method
ZHANG Qiang, JU Xiao-Tang, ZHANG Fu-Suo
2010, 18(1): 7-13. doi: 10.3724/SP.J.1011.2010.00007
Abstract(4568) PDF(3668)
Abstract:
Nitrous oxide is an important greenhouse gas and agricultural soil is a major source of nitrous oxide emission. The aim of this study was to estimate direct nitrous oxide emissions from agricultural soils of China through the IPCC2006 guideline method updated with combined local parameters and statistical data. The results show that average annual growth rate of direct nitrous oxide emission from agricultural soils of China is 7.6% for 1980~2007, releasing 288 400 tons N in 2007. The contributions of chemical nitrogen fertilizer input, organic material input, crop residues input and histosol soils to direct nitrous oxide emission from agricultural soils of China are 77.64%, 15.57%, 6.46% and 0.33% respectively in 2007. From the distribution pattern, provinces of high nitrous oxide emission are mainly concentrated in North China Plain and Sichuan Basin. On the other hand, provinces of high nitrous oxide emission per unit arable land area are mainly in North China Plain and the Southeast coast area.
NPK accumulation in greenhouse soil and its effect on groundwater
YUAN Li-Jin, JU Xiao-Tang, ZHANG Li-Juan, WANG Jue, YANG Zhi-Xin
2010, 18(1): 14-19. doi: 10.3724/SP.J.1011.2010.00014
Abstract(4193) PDF(2889)
Abstract:
In allusion to the problems of fertilizer waste and environmental pollution brought about by traditional fertilization and irrigation, greenhouse and farmland soil samples along with corresponding groundwater samples in Dingzhou City, Hebei Province were collected. Then accumulated NPK in greenhouse soil profile and its effects on the groundwater were analyzed for different cultivation ages. The results show that accumulated available nutrients in the 0~200 cm and 0~400 cm greenhouse soil profiles are higher than in farmland soils. In soil of greenhouse within 10 years, nitrate (377.2 mg·kg-1), available P (448.8 mg·kg-1), available K (1 405.6 mg·kg-1) and water-soluble P (30.6 mg·kg-1) are respectively 4.7, 4.6, 1.4 and 11.5 times of the cropland soils. For greenhouse older than 10 years, the respective variables are 6.4, 16.3, 2.7 and 12.0 times. The proportion of available soil nutrient in deep soil profiles increases with cultivation age. NO3--N pollution in drinking water at the depth of 20 m is serious with common and serious overproof rates of 39.3% and 7.1% respectively. NO3--N content in irrigation water for farmland and greenhouse at the depth of 40 m is 7.4 mg·L-1 and 9.6 mg·L-1 with respective common overproof rates of 25.0% and 37.5%, and zero serious overproof rate.
Effect of rice straw on the physicochemical properties of field surface solution under waterlogged incubation
DAI Zhi-Gang, LU Jian-Wei, LU Ming-Xing, YANG Wen-Bing, FAN Xian-Peng
2010, 18(1): 20-24. doi: 10.3724/SP.J.1011.2010.00020
Abstract(2088) PDF(1866)
Abstract:
The objective of this research was to determine the effect of different rates of rice straw returned to soil on field surface solution properties via experimental simulation. Under four rice straw rates (0 g·pot-1, 100 g·pot-1, 200 g·pot-1 and 300 g·pot-1), with 15 kg soil and 2.8 g urea of a pot, electrical conductivity (EC), pH, total nitrogen (TN), total phosphorus (TP) and total potassium (TK) were determined in the experiment. The results show an obvious increase in EC at the beginning, and peaks of 960 μs·cm-1, 1 150 μs·cm-1, 1 467 μs·cm-1 and 1 620 μs·cm-1 after 36 days of the experiment for the four straw treatments, which are then followed by a slight decrease. EC for the four rice straw rates at the end of the incubation are 683 μs·cm-1, 910 μs·cm-1, 1 083 μs·cm-1 and 1 277 μs·cm-1 respectively. pH slowly decreases in 3 days of the experiment, the decrease is negatively related with rice straw rate, and then increases rapidly till 16 days, after which it gets relatively stable. The treatments have high TN concentration at the beginning of the experiment caused by urea application. However, TN declines rapidly from the 20th to the 76th day. Less effect of rice straw application on TN is observed. Rice straw return increases TP. There is an obvious increases in TK on the 1st day with 6.87 mg·L-1, 36.10 mg·L-1, 60.27 mg·L-1, and 114.23 mg·L-1 TK in surface soil solution. TK is steady during the entire experimentation period. Returning rice straw to field increases field surface solution EC, TP and TK concentration. While there is a positive correlation between rice straw rate and the above variables, rice straw return has little effect on pH and TN. In terms of nutrient loss, the critical time for controlling N, P and K loss is 30 days after straw application.
Charcoal records of Holocene loess-soil sequences and its palaeoenvironmental significance in Weihe River Drainage
TAN Zhi-Hai, HUANG Chun-Chang, PANG Jiang-Li, ZHANG Zhan-Ping
2010, 18(1): 25-30. doi: 10.3724/SP.J.1011.2010.00025
Abstract(2200) PDF(2133)
Abstract:
Analysis (of samples collected through field investigation) of total organic carbon, magnetic susceptibility of Holocene loess-soil charcoal sequences in Weihe River Drainage have revealed the relationship between Holocene wildfire occurrence changes and ecological environment. The current study shows that total organic carbon (TOC) does not fully indicate the occurrence of wildfire in an ecological environment. However, charcoal is regarded as a direct and reliable indicator of wildfire occurrence. Indications of changes in Holocene and charcoal environment have great environmental significance. Before 11 500 a B.P., the climate was arid and wildfire frequently occurred in semi-desert grasslands. Conversely, the incidence of wildfires decreased during the early Holocene epoch. During the optimum Holocene climatic between 8 500 a B.P. and 3 100 a B.P., natural wildfires occurrence fell sharply. Pathogenic alterations in dust accumulation processes were so active that forest-grasslands formed under humid warmer Holocene Mega thermal climate. However, with regional distinction, localized wildfires in connection with human activity occasionally occurred. Levels of burnt biomass were very high during the Late Holocene epoch when the climate was drier and historical land-use more intensive in the study area. After 1 500 a B.P., the amount of charcoal sharply decreased and wildfire occurrence slowly disappeared. It may had resulted from a significant change in land use pattern. The artificial-natural ecological landscape had been established and large-scale burning of land did not occured. Charcoal could therefore be used as a vital indicator for human activity in geological time.
Yield response to wheat/maize competitiveness in wheat/maize intercropping system under different root partition patterns
QI Wan-Hai, CHAI Qiang
2010, 18(1): 31-34. doi: 10.3724/SP.J.1011.2010.00031
Abstract(2251) PDF(1729)
Abstract:
A field experiment was conducted to investigate the effect of different root partition patterns on wheat/maize competitiveness under intercropping system and how it affects yield. Two root partition patterns (plastic film and nylon mesh partition patterns) were used. The study shows that wheat/maize competitiveness in intercropping system steadily increases from sowing to flowering stage of wheat, and then decreases. Competitive advantage of wheat over maize under intercropping decreases by root partitioning. Intercropping system without root partition increases competitive advantage of wheat by 20.5% and 4.9% respectively, compared to those with plastic film and nylon mesh partition. Land equivalent ratios (LER) of intercropping systems without root partition, with plastic film partition and nylon mesh partition are 1.46, 1.20 and 1.39 respectively. Yield for intercropping system is quadratically correlated with wheat competitiveness to maize. Improving wheat/maize competitiveness in intercropping systems could increase yield. The stage of wheat flowering is critical for optimizing wheat competitiveness.
Analysis of source-sink-translocation characteristics and indicators for high-yield colony of winter wheat
MU Mei-Cai, ZHANG Yue-Qiu, CUI Cong-Guang, YI Shu-Yu, MA Chang-Yun, XUN Yan-Bo
2010, 18(1): 35-40. doi: 10.3724/SP.J.10112010.00035
Abstract(2284) PDF(1653)
Abstract:
Investigation and analysis of source-sink-translocation characteristics of winter wheat were conducted for 2005~2007 in 15 high-yield fields of Longkou and Laizhou Cities, Shandong Province. The high-yield winter wheat colony under Stabilizing LAI-Controlling Plant Type-Increasing Ear Number (CPCE) management exhibits higher non-leaf area proportion, total photosynthetic area, number of grain and vascular bundle. It has the advantages of increased source, expended sink and smooth translocation. In order to produce 9 000 kg·hm-2 gain yield of winter wheat, it is necessary to maintain total photosynthetic area at 10~13 m2·m-2 and non-leaf/leaf area ratio at 1.3~1.7 during flowering stage; and aboveground wheat dry-matter at 19 500 kg·hm-2, economic coefficient higher than 0.45, total colony bundle number at 22×103~30×103·hm-2, daily conducting amount at 230 kg·hm-2 and conducting amount per bundle at 1 mg·d-1 during mature stage. The comprehensive analysis of the balance between source and sink of high-yield wheat fields shows that CPCE benefits increasing photosynthetic source of wheat.
Plant type of Cucurbita pepo L. in sunlight greenhouse and its effect on yield formation
SHI Yu-Gang, LEI Feng-Jin, WANG Shu-Guang, WANG Xiao-Min
2010, 18(1): 41-45. doi: 10.3724/SP.J.1011.2010.00041
Abstract(2290) PDF(1658)
Abstract:
Eight common domestically and foreign cultivated Cucurbita pepo L. cultivars were selected to study 14 morphological indexes influencing plant type under sunlight greenhouse. And effects of plant type on yield formation was discussed. Results show that the main morphological indexes influencing plant type are plant height, internode length, average leaf area, functional leaf quantity and leaf angle. By using cluster analysis, the tested cultivars are classified into two groups (bush vineⅠand semi-bush vine Ⅱ) and four sub-groups (Ⅰ1, Ⅰ2, Ⅱ1 and Ⅱ2). Plant type has a more important effect on C. pepo yield formation. Total yields of the semi-bush vine cultivars are obviously higher than those of the bush vine cultivars and the yield difference mainly forms in the late growth stage. Path analysis shows that internode length plays an important role in yield formation, and the direct effect of function leaf quantity on yield is the strongest, reaching 1.238 0. In breeding and cultivating high yield C. pepo in sunlit greenhouse, emphasis should be placed on the construction of plant type with over 12 functional leaves, average leaf area of 700~800 cm2, average internode length of approximately 3.3 cm and upper leaf angle of 45°~66°.
Field application of hyacinth (Eichharnia crassipes
SHENG Jing, CHEN Liu-Gen, ZHU Pu-Ping, ZHOU Wei, XUE Xin-Hong
2010, 18(1): 46-49. doi: 10.3724/SP.J.1011.2010.00046
Abstract(1963) PDF(1563)
Abstract:
The effect of different application doses of hyacinth on the dynamic of soil available NPK, wheat seedling emergence rate, yield and its components were studied. The results show no obvious effect of hyacinth on wheat seedling emergence rate when applied at less than 8.1 kg·m-2. However, when it is applied at higher than 8.1 kg·m-2, wheat seedling emergence rate significantly decreases. Due to high tiller number and grain number per spike, treatment at 13.5 kg·hm-2 has no significant difference in grain yield from that of normal chemical fertilization treatment. There is also no significant difference in soil available N among the treatments during the entire growth period, except for the seedling stage. Soil available P and K increase with increasing dose of hyacinth. The findings suggest that hyacinth promotes both NPK absorption in stem and protein content in grain of wheat. Hence hyacinth is a potential high quality organic fertilizer. Its use increases soil NPK and organic matter content, while reducing the application of N by 141.75 kg·hm-2, P by 36~45 kg·hm-2, and K by 100%. Its optimum application dose is therefore in the range of 10.8~13.5 kg·hm-2.
Effect of nitrogen application strategy in the first cropping rice on dry matter accumulation, grain yield and nitrogen utilization efficiency of the first cropping rice and its ratoon rice crop
CHEN Hong-Fei, YANG Dong, LIANG Yi-Yuan, ZHANG Zhi-Xing, LIANG Kang-Jing, LIN Wen-Xiong
2010, 18(1): 50-56. doi: 10.3724/SP.J.1011.2010.00050
Abstract(2089) PDF(1667)
Abstract:
The effect of fertilizer application strategy on nitrogen and dry-matter accumulation, grain yield and nitrogen utilization efficiency (NUE) of the ratoon rice crop and its first cropping rice was determined through designing 3 nitrogen applied proportion between basal-tiller dressing and panicle dressing [8∶2(N1), 7∶3(N2), 6∶4(N3)] in the first cropping rice season with a constant nitrogen supply at 225.00 kg·hm-2 in the experiment. The results indicate that N accumulation under N3 treatment is 9.26% and 3.54% higher at ripening stage of the first cropping rice than that under N1 and N2 treatments. Transportation of N from vegetative parts to panicle during grain-filling stage of the first cropping rice under N3 is separately 21.47% and 6.76% higher than under N1 and N2 treatments. For the entire growth period, net dry-matter accumulation in rice under N3 treatment increases by 5.10% and 4.78% compared with N1 and N2. For grain yield of the first cropping rice, N3 treatment produces the highest (12 431 kg·hm-2), which is significantly higher than that produced by N1 and N2. N utilization efficiency of N3 treatment is as high 46.44%, 14.81% and 5.43% higher than that under N1 and N2. N agronomic efficiency in N3 treatment is 20.66 kg·kg-1, 14.97% and 12.34% higher than in N1 and N2. Furthermore, the results show that different nitrogen proportion between basal-tiller dressing and panicle dressing with a constant nitrogen supply (225.00 kg·hm-2 N fertilizer) in the first cropping rice has no significant influence on the ratoon rice crop.
Effect of light intensity and nitrogen level on growth and biomass of Rauvolfia vomitoria
LI Lei, CAI Chuan-Tao, LIU Gui-Zhou
2010, 18(1): 57-61. doi: 10.3724/SP.J.1011.2010.00057
Abstract(2172) PDF(1775)
Abstract:
A potted experiment was conducted to study the growth and biomass of Rauvolfia vomitoria plant under different light intensities (15%, 40% and 70% of full sunlight) and nitrogen levels (15 g, 30 g and 60 g per plant). The results show that the growth, individual biomass and biomass allocation are significantly influenced by light intensity and nitrogen level (P<0.05). The plant height, ground diameter, relative growth rate of height and ground diameter (RGRH, RGRD) and individual biomass under 70% light intensity are higher than those under 15% and 40% light intensity, and more biomass is allocated to underground plant part. The height, ground diameter, RGRH, RGRD and individual biomass decrease with increasing nitrogen level under 15% and 40% light intensity. Under 70% light intensity, R. vomitoria plant grows best and individual biomass reaches the highest value of 559.6 g at 30 g nitrogen per plant. At the same light intensity, root mass ratio (RMR) and root to shoot ratio (R/S) decrease with increasing nitrogen level. On the other hand, specific leaf area (SLA) and leaf mass ratio (LMR) are highest at 15% light intensity and 60 g nitrogen per plant. Analysis on individual biomass, RMR, R/S and growth characteristics including height, ground diameter, RGRH, RGRD reveals that 70% light intensity and 30 g nitrogen per plant combination yields the optimum condition for R. vomitoria plants.
Evapotranspiration characteristics of spring maize under film and straw mulch
ZHAI Zhi-Fen, ZHAO Yuan-Zhong, JING Ming, ZHANG Jian-Hua, LU Yan-Min
2010, 18(1): 62-66. doi: 10.3724/SP.J.1011.2010.00062
Abstract(2086) PDF(1942)
Abstract:
Using film and straw mulch and different irrigation methods, an experiment was conducted to determine evapotranspiration from spring maize land. Large-scale weighing lysimeter and miniature evaporator were used to measure evapotranspiration, which combined with weather, leaf area, yield data and other auxiliary data were used to compare the advantage of different mulch and irrigation methods. The measured data were analyzed to learn pulse relations between rainfall, irrigation with soil evaporation, and stage effect of rainfall on total and reference crop evapotranspiration. It is indicated that proportion of soil evaporation to evapotranspiration shows “high-low-high” changing rule at different growth stages. Straw mulch presents better effect on reducing invalid evapotranspiration than film mulch. The relation between evapotranspiration and leaf area index of different treatments is better with a much linear functional relationship. Trough the relationship model, crop coefficients for different growth stages of spring maize and water use efficiency for the entire growth period are determined. The experimental results indicate that deficient irrigation has little effect on water use efficiency in arid Hexi region. The effectiveness of deficient irrigation is better in spring maize with film mulch than with straw mulch.
Relationship between indices of growth, physiology and reflectivity and yield of winter wheat under water stress
CONG Jian-Ou, LI Ning, XU Ying-Jun, GU Wei, LE Zhang-Yan, HUANG Shu-Qing, XI Bin, LEI Yang
2010, 18(1): 67-71. doi: 10.3724/SP.J.1011.2010.00067
Abstract(1946) PDF(2118)
Abstract:
In this study, the correlation between yield reduction rate and the relevant key performance indicators of growth, physiology and canopy hyperspectral reflectivity of winter wheat are established at different drought levels via soil water content control at different growth stages. The results show that dry-matter accumulation rate decreases with increasing drought stress at different growth stages. The correlation between chlorophyll content and soil water condition differs from that for the other parameters. Chlorophyll content is maximum in moderate drought stress and minimum in severe drought stress. Daily variation in photosynthetic rate exhibits two different characteristics, with a higher photosynthetic rate under normal soil water condition than in serious drought stress. Furthermore, an optimal relational model formulated from yield reduction rate with photosynthetic rate and enhanced vegetation index (EVI) can be used to estimate winter wheat yield.
Effect of substrate moisture and illumination on growth, physiological and biochemical property of netted muskmelon seedling
MAO Wei-Guang, JIANG Fang-Ling, WU Zhen
2010, 18(1): 72-76. doi: 10.3724/SP.J.1011.2010.00072
Abstract(2139) PDF(1400)
Abstract:
In an environment with different substrate moistures [100% (W1), 80% (W2), 60% (W3) and 40% (W4) of moisture capacity of substrate] and illumination levels [100% (L1), 70% (L2), 40% (L3) of natural light intensity] interaction, the growth, physiological and biochemical properties of muskmelon seedling were investigated using netted muskmelon “Xiyuyihao” as material. Results show that seedling growth is significantly influenced by substrate moisture and light intensity, with 80% substrate moisture and 100% light intensity presenting the strongest growth vigor in greenhouse. Light intensity has a significant effect on soluble sugar content. Only under 100% light intensity does substrate moisture significantly influence soluble sugar content. Under three different illumination levels, soluble protein and free proline contents obviously increase with reduced substrate moisture. When the substrate moisture is the same, the effect of light intensity is relatively less. In all the treatments, W2L1 exhibits the lowest SOD and POD activity, and simultaneously showing a low CAT activity. While W2L1 has the minimum, W4L3 has the maximum MDA content.
Effect of combined low temperature, poor light and salt stress on photosynthetic characteristics of pepper seedling leaf
ZHANG Zhi-Gang, SHANG Qing-Mao
2010, 18(1): 77-82. doi: 10.3724/SP.J.1011.2010.00077
Abstract(2244) PDF(1876)
Abstract:
Photosynthetic parameters, and light and CO2 requirement characteristics were analyzed to determine effects of combined low temperature (18 ℃/10 ℃, day/night), poor light (80 mmol·m-2·s-1) and salt stress (70 mmol·L-1 NaCl) on photosynthetic characteristics in pepper leaf. Net photosynthetic rate (Pn), stomatal conductance (Gs) and transpiration rate (Tr) decrease under single or combined low temperature, poor light and salt stress. Pn under low temperature and salt stress decreases by 71.28% after treatment for 15 days compared with the control. The limiting factor of different stresses regarding decreasing Pn is different for pepper leaves. Except for the increase in apparent quantum yield (AQY) for leaves under poor light, and CO2 compensation point (CCP) for leaves under low temperature and poor light, all other stresses suppress light compensation point (LCP), light saturation point (LSP), AQY, photosynthetic rate at light saturation point, CCP, CO2 saturation point (CSP), carboxylation efficiency (CE) and maximum reproductive rate of RuBP. The degree of suppression is higher in leaves under combined low temperature and salt stress, followed by those under combined low temperature, poor light and salt stress. It implies that the response mechanism of photosynthetic characteristics of pepper leaves under combined low temperature, poor light and salt stress is different from that of single or double stress. Poor light could, to some extent, relieve the drop in photosynthetic capacity of pepper leaf under low temperature and salt stress.
Effect of conservation tillage on microbial community in Chinese Mollisol
ZHANG Bin, BAI Zhen, XIE Hong-Tu, ZHANG Xu-Dong, ZHANG Xiao-Ping, SHI Xiu-Huan
2010, 18(1): 83-88. doi: 10.3724/SP.J.1011.2010.00083
Abstract(2060) PDF(1852)
Abstract:
Tillage systems affect soil microbial communities, which in turn influence soil ecological processes. In this study, the effects of conservation tillage (including no-tillage continuous corn and no-tillage soybean-corn rotation) on microbial community were studied by determining the contents of soil microbial biomass carbon and phospholipid fatty acids (PLFAs) and comparing it with conventional tillage continuous corn. Results show that implementation of conservation tillage significantly increases soil carbon and nitrogen, water soluble organic carbon, available nitrogen and microbial biomass C in the 0~5 cm soil depth (P<0.05) compared with conventional tillage. These conditions produce abundant substrate for microbial growth. Furthermore, conservation tillage practices increase total PLFAs, fungal and bacterial biomass in the surface layer, increase fungi/bacteria ratio, and thus improve soil sustainability. These findings are of great significance for understanding the internal mechanisms of conservation tillage.
Isolation, identification and inoculation effect of nitrogen-fixing bacteria Sphingomonas GD542 from maize rhizosphere
SUN Jian-Guang, ZHANG Yan-Chun, XU Jing, HU Hai-Yan
2010, 18(1): 89-93. doi: 10.3724/SP.J.1011.2010.00089
Abstract(2177) PDF(2253)
Abstract:
Breeding of nitrogen-fixing bacteria is the basis for nitrogen-fixing microbial fertilization. A high efficiency nitrogen-fixing bacteria Sphingomonas GD542 was isolated from maize rhizosphere — a short rod of 0.4 mm×1.0~1.5 mm, G-, with 5.046 nmol (C2H4)·h-1·mg-1(protein) nitrogenase activity, that can grow from 4 ℃ to 37 ℃ and resistant to 10% NaCl. Phylogeny based on 16 S rDNA sequence shows that GD542 shares 96% DNA homology with S. azotifigens. Based on the analysis results of morphology, physiology, chemical property, and 16 S rDNA sequencing, strain GD542 is identified as Sphingomonas sp. Green house test shows a statistically significant increase in dry weight and nitrogen content in pakchoi inoculated with GD542 strain, indicating high nitrogen fixing ability of GD542 strain. There is 206% increase in dry weight and 230% increase in plant nitrogen content of pakochoi compared with the control. Hence GD542 strain holds a good prospect for future applications.
Growth and phosphate-dissolving ability of strain SL01 under different storage temperatures and calcium phosphate levels
LI Jian-Feng, SHI Shang-Li, ZHANG Shu-Qing
2010, 18(1): 94-97. doi: 10.3724/SP.J.1011.2010.00094
Abstract(1873) PDF(1532)
Abstract:
The growth rate and phosphate-dissolving ability of phosphate-dissolving rhizobium SL01 in different calcium phosphate [Ca3(PO4)22] content of substrate and storage temperatures were determined. Based on solid culture, the results indicate enhanced colony growth with increasing levels of Ca3(PO4)2. Colony diameter of treatment with 8.0 g·L?1 Ca3(PO4)2 is respectively 16.9%, 27.7%, 30.1% and 32.7% higher than that of 5.0 g·L?1, 3.0 g·L?1, 1.0 g·L?1 and 0.5 g·L?1 Ca3(PO4)2 treatments. At Ca3(PO4)2 range of 0~8.0 g·L?1, the phosphate-dissolving ability of the strain is not obviously different. It is therefore more suitable to use D/d (phosphate-dissolving ring diameter to colony diameter) ratio in measuring phosphate-dissolving ability of strains in solid surrounding such as soil. Bacteria liquid is best preserved under 15 ℃, followed by 4 ℃. Phosphate-dissolving ability of SL01 under different storage temperatures is -18 ℃ > -10 ℃ > 4 ℃ > 15 ℃ > 28 ℃ > 35 ℃. The order of SL01 colony diameter under different storage temperatures is 4 ℃ > 15 ℃ > -18 ℃ > 28 ℃ > -10 ℃ > 35 ℃. Order of viable bacteria amount of strain preserved for 60 d under different temperatures is 15 ℃ > 4 ℃ > 28 ℃ > -10 ℃ > 35 ℃ > -18 ℃.
Controlling mechanisms of tomato gray mould by endophytic bacterium Jcxy8 (Bacillus circulan)
WANG Mei-Qin, HE Yun-Chun, LIU Hui-Ping, XUE Li, LU Tao
2010, 18(1): 98-101. doi: 10.3724/SP.J.1011.2010.00098
Abstract(1867) PDF(1665)
Abstract:
To explore the inhibiting effect and physiological mechanism of endophytic bacteria (Bacillus circulans) Jcxy8 isolated from tomato against Botrytis cinerea pathogen, a series of analysis were carried out including inhibitory ability analysis via of punching-poles. Results show that Jcxy8 strain inhibits mycelial growth of B. cinerea at an average inhibitory circle diameter of 35.6 mm. Inhibition rate of spore production around inhibitory circles is 66.9%. B. cinerea spores do not germinate when Jcxy8 strain culture filtrate concentration is above 40%. Microscopic observations indicate that mycelial cells around inhibitory circles fade away and twist up with vesicle-like stems or tips. Physiological analysis with spectrophotometer on tomato fruits inoculated with both Jcxy8 and B. cinerea shows increasing soluble protein content, which in is 12.7% higher than that in water, and 39.1% higher than that in fruits inoculated with B. cinerea only and activities of superoxidase (POD), superoxide dismutase (SOD), catalase (CAT) are just lower than inoculated with B. cinerea. It also suppresses the production rate of superoxide anionradicals (), implying that Jcxy8 strain significantly induces the tomato fruits’ resistance on tomato gray mould.
Analysis of the components and control effect on Rhizoctonia solani of duck manure extract
ZHANG Ya, LIAO Xiao-Lan, LIU Wei, HUANG Huang, XUE Zheng-Jie, LONG Pan, SHEN Jian-Kai
2010, 18(1): 102-105. doi: 10.3724/SP.J.1011.2010.00102
Abstract(2213) PDF(1625)
Abstract:
Duck manure from rice-duck eco-farming plays a crucial role in controlling Rhizoctonia solani. In this study, the antibacterial activity and effective components of duck manure extracts were analyzed for R. solani. Duck manure extracts via ethanol respectively has highest inhibition rate of 88.64% and EC50 of 26.11 mg·mL-1 against R. solani. The extract was further separated into two parts and one part separated by ethyl acetate while the other was separated by petroleum ether. Based on the inhibition experiment against R. solani, ethly acetate extract has a rather strong effect on R. solani with 89.70% inhibition rate and 15.52 mg·mL-1 EC50. The effect of petroleum ether extract on R. solani is relatively weak. The former was again divided into five parts in silica gel column, of which the second part significantly inhibits R. solani. During the periods of 24 and 48 hrs, the inhibition rate of the second part on R. solan is respectively 89.58% and 80.36%. GC-MS analysis suggests that the second part contains phenol sour and sulfur alcohol, which best suits further purification and identification.
Occurrence and expansion of wheat stripe rust under mixed-cultivar planting
GUO Shi-Bao, HUANG Li-Li, KANG Zhen-Sheng, CHENG Jing-Jing, YANG Zhi-Wei
2010, 18(1): 106-110. doi: 10.3724/SP.J.1011.2010.00106
Abstract(1980) PDF(1517)
Abstract:
Six mono-cultivar planting treatments and nine mixed-cultivar planting treatments were designed to study the occurrence and expansion of wheat stripe rust (Puccinia striiformis f. sp. tritici) and control effect of mixed-cultivar planting. The results indicate that the number of foci at seedling stage obviously reduces under mixed-cultivar planting compared with mono-cultivar planting. Over-wintering rate of foci is 77.78% and a few single diseased leaves survive after winter. The spreading distance of stripe rust is shorten on mixed-cultivar plots. Stripe rust shows a trait of central distribution in different plots. Relative efficacy of mixed-cultivar planting at booting stage ranges from 16.25% to 58.89%, with a mean value of 35.31%. “Shaan 138” and “Xinong 979” mixed-planting, and “Shaan 138”, “Xiaoyan 22” and “Xinong 889” mixed-planting show the highest relative efficacy, which is 58.89% and 52.19% respectively. Mixed-cultivar planting has a higher control effect on wheat stripe rust than mono-cultivar planting. Mixed-cultivar planting can thus be used as a good ecological measure in disease prevention and control.
Dynamics of pest and natural enemy community in wheat field
LU Wen-Yan, QIN Xue-Feng, DU Kai-Shu
2010, 18(1): 111-116. doi: 10.3724/SP.J.1011.2010.00111
Abstract(1823) PDF(1517)
Abstract:
Community dynamics of major insects in winter wheat fields were investigated for the period of March 15 to May 29 in 2008 in accordance with the theory and method of community ecology. Data collected on pest and natural enemy communities and temporal niches were analyzed based on factors such as relative richness, dominance index, dominant concentration index, diversity index and evenness. Results show a rich insect community composition in winter wheat fields, with 11 orders, 39 families and 59 species. Dominant species are Macrosiphum avenae, Penthaleus major, Propylea japonica and Ephedrus plagiator. Individual population and abundance change with investigation time. Diversity index and evenness of communities are relatively low during wheat early growth stage. However, both are high during the mid and late stages, with the same variation trend. The change of dominant concentration index is inversely related to evenness and diversity index. Among the natural pest population, intra-species competition is fiercest for Helicoverpa armigera and weakest for Psammotettix striatus. On the other hand, inter-species competition is fiercest for H. armigera and M. avenae, followed by P. major and Dolerus tritici. Among the enemy population, intra-species competition is fiercest for Coccinella septempunctata and weakest for E. plagiator. In terms of time, competition between P. japonica and C. septempunctata or Leis axyridis is relatively fierce. However, that between E. plagiator and P. japonica, C. septempunctata or L. axyridis is weaker. Based on overlaps between the pest and natural enemy populations, L. axyridis and C. septempunctata have a strong control effect on H. armigera. E. plagiator and P. japonica have a stronger control effect on main pests such as M. avenae, P. striatus and Phytomyza nigra in winter wheat fields.
Cold tolerance of the pine armored scale Hemiberlesia pitysophila (Homoptera: Diaspididae) in different regions
ZHONG Jing-Hui, ZHANG Fei-Ping, JIANG Bao-Fu, CHEN Jia-Hua
2010, 18(1): 117-122. doi: 10.3724/SP.J.1011.2010.00117
Abstract(1677) PDF(1743)
Abstract:
In order to explore geographic adaptability to low temperature of Hemiberlesia pitysophila (pine armored scale, a dangerous insect pest), its supercooling point (SCP, Xinyi in Guandong Province, and Zhangzhou, Quanzhou and Changle in Fujian Province) and exposure mortality (EM, Xinyi, Quanzhou and Changle) to a designated low temperature were measured in the winter of 2007. Results indicate that female adult SCP for the four regions is significantly different (P<0.05). It is lowest for Changle with a mean value of ?15.71 ℃, while is highest for Xinyi with a mean value of ?13.68 ℃. SCP exhibits a declining tendency with rising latitude. Under 10 ℃ to ?20 ℃, the mortality of the insect pest is remarkably higher in Xinyi than in Changle and Quanzhou. When specifically exposed to ?10 ℃, its mortality in Xinyi is 85.97%, but only 37.58% and 56.65% in Quanzhou and Changle respectively. Furthermore, the relationship between sum of temperature and population mortality in Xinyi, Quanzhou and Chanle is in accordance with revised double variable Logistic model. The same is the case for the five insect developmental stages including instar nymph (1st stage), instar nymph before sex differentiation (2nd stage), instar female (2nd stage), male nymph after sex differentiation and female adult. Median lethal sum of injury temperature (SLIT50) of the population is also higher in Xinyi than in Quanzhou and Changle. The findings imply that H. pitysophila is strongly adaptable to low temperatures with an increasing cold tolerance at higher latitudes.
Effect of large-scale rice-duck eco-farming on the composition and diversity of weed community in paddy fields
SHEN Jian-Kai, HUANG Huang, FU Zhi-Qiang, ZHANG Ya, CHEN Can, JIN Xiao-Ma, LIAO Xiao-Lan, LONG Pan, GAO Wen-Juan, XIE Xiao-Ting
2010, 18(1): 123-128. doi: 10.3724/SP.J.1011.2010.00123
Abstract(2316) PDF(1741)
Abstract:
Changing characteristics of weed community, weed-controlling effect of large-scale rice-duck eco-farming (SF), conventional rice-duck eco-farming (CF) compared to mono-cropping rice (CK) were analyzed in order to explore the dynamics of weed communities in large-scale rice-duck eco-farming paddy fields. The study shows that weed density in paddy fields significantly decreases with more than 94% grass-controlling effect under SF compared with CK. Before rice booting stage, weeds compose mainly of Alopecurus pratensis, Echinochhloa crausgalli,Cynodon dactylon, Alternanthera philoxeroides, Mouochoria vaginalis,Murdannia triquetra and Eclipta prostrata in SF. During heading to ripe stage, weeds are mainly A. philoxeroides, E. crausgalli, C. dactylon, M. triquetra. At tillering, species richness, Simpon index and Shannon-Wiener index are higher while Pielou index is lower in SF than in CK. From booting to ripening, weed species richness, Simpon index and Shannon-Wiener index are lower while Pielou index is significantly higher in SF than in CK. In the entire rice growth period, weed density, weed fresh weight and species diversity are not significantly different between SF and CF, but species diversity is higher in SF than in CF. SF changes the structure of weed community and decreases weed species diversity, effectively limiting weed infestation in paddy fields.
QTL mapping and analysis of QTL-environment interaction associated with two silicon nutrient traits in rice seedlings exposed to enhanced UV-B radiation
WU Xing-Chun, WANG Yin, WANG Qing-Shui, XIONG Jun, YU Yan, FANG Chang-Xun, LIN Wen-Xiong
2010, 18(1): 129-135. doi: 10.3724/SP.J.1011.2010.00129
Abstract(1904) PDF(1477)
Abstract:
Mapping of quantitative trait loci (QTL) and its interaction with the environment (UV-B radiation) were analyzed via two silicon nutrient traits, root uptake to silicon (RUS) and leaf use efficiency of silicon (LUES) in rice RILs population seedlings under enhanced UV-B radiation. The results show that four QTLs controlling LUES are located on chromosomes 2, 3 and 10. Only one QTL that controls RUS is located on chromosome 11. Besides, two and three pairs of genotype-environment (GE) epistasis QTL are detected for RUS and LSUE respectively. Only one of these that controls RUS displays a significant effective value. This indicates that RUS is more severely influenced by UV-B radiation than LUES. Hence it could be more efficient to use LUES as a genetic trait in breeding UV-B resistant rice.
Cadmium-induced root growth inhibition is mediated by hydrogen peroxide production in root tip of Arabidopsis
ZHANG Si-Nan, GAO Pei-Yao, XIE Qing-En, ZHAO Xu-Hua, LI Xia
2010, 18(1): 136-140. doi: 10.3724/SP.J.1011.2010.00136
Abstract(3078) PDF(3485)
Abstract:
Arabidopsis was used as a model plant and the young seedling root response to Cd stress investigated. The study shows that increasing concentrations of Cd inhibits root elongation. Both the meristematic and elongation zones are severely truncated, suggesting some degree of impact on cell division and elongation. Plant roots die under Cd overdose. DAB staining analysis shows hydrogen peroxide (H2O2) accumulation in root tips when seedlings are treated with Cd. Furthermore, vitamin C (Vc) dramatically increases seedling tolerance to Cd treatment. Put together, the results demonstrate that Cd-inhibited root growth is likely caused by reduced meristematic and elongation cell division, mediated by ROS (reactive oxygen species) production.
Effect of application method on copper transport by runoff from sloping lateritic red soils amended with sewage sludge
CHEN Yan-Hui, HUANG Rui-Qing, WANG Guo, XIAO Zhen-Lin, CHEN Ming-Hua, CHEN Wen-Xiang, CHAI Peng
2010, 18(1): 141-146. doi: 10.3724/SP.J.1011.2010.00141
Abstract(2448) PDF(1646)
Abstract:
The effects of different application methods of sewage sludge on Cu transport by runoff from sloping plots in lateritic red soils were investigated under simulated rainfall conditions. When the sludge is broadcasted and mixed with surface soils, the concentrations and loss of MTCu (total Cu in mixed sample), STCu (total Cu in settled sample), TPCu (total particulate Cu), TSCu (total suspended Cu) and TDCu (total dissolved Cu) in runoff are highest on the 1st and 18th day after application. The peaks of concentration and loss of MTCu, STCu are 1 674.9 μg·L-1, 105.4 μg·L-1 and 21.59 mg·m-2, 1.32 mg·m-2, which are respectively 4.2~13.7 and 5.4~24.9 times of corresponding peak values under hole-application and broadcast-application with hay mulch. After that, both the concentration and loss of Cu gradually decrease with the treatment time. Broadcast-application with hay mulch reduces Cu concentration in runoff by 72.8%~91.7% and Cu loss via runoff by 91.4%~97.1%, compared with the broadcast-application alone. Cu concentration in runoff and Cu loss via runoff reduce by 78.2%~89.9% and 68.6%~82.9% respectively under hole-application, compared with those under broadcast-application. MTCu loss coefficients via runoff are 0.83%, 0.03% and 0.26% for broadcast-application, broadcast-application with hay mulch and hole-application. Hole-application, but especially broadcast-application with hay mulch, is effective for controlling Cu loss by runoff. Particle-bound Cu is the major form of Cu loss via runoff.
Effect of organic matter on fractional transformation of Zn in black soils under freeze-thaw cycle
GAO Wen-Wen, LIU Jing-Shuang, WANG Yang
2010, 18(1): 147-151. doi: 10.3724/SP.J.1011.2010.00147
Abstract(2184) PDF(1428)
Abstract:
Freeze-thaw cycle (FTC) has a strong influence on fractional transformation of the heavy metal Zn in soils with different contents of organic matter. For 8 FTC cycles, every one of which is 24 h, in a black soil with 150 mg Zn per kg soil, increase in organic matter leads to a decrease in exchangeable form of Zn and Fe-Mn oxide form of Zn, and an increase in organic form of Zn and residual form of Zn. While, for no FTC, exchangeable form of Zn and Fe-Mn oxide form of Zn decrease gradually, and organic form of Zn increases gradually, residual form of Zn has no distinct change, with the increase of organic matter content. As organic matter content increases in the soil, FTC further improves decreases in bio-available form of Zn. Fitting organic matter and contents of different forms of Zn with or without FTC, Zn in all forms exhibits a quadratic polynomial function correlation with organic matter content with correlation coefficients of 0.664~0.995.
Role of Eichhornia crassipes uptake in the removal of nitrogen and phosphorus from eutrophic waters
ZHANG Zhi-Yong, ZHENG Jian-Chu, LIU Hai-Qin, CHANG Zhi-Zhou, CHEN Liu-Gen, YAN Shao-Hua
2010, 18(1): 152-158. doi: 10.3724/SP.J.1011.2010.00152
Abstract(3824) PDF(2628)
Abstract:
Stimulation experiments were carried out to study nitrogen and phosphorus uptake and removal ability of Eichhornia crassipes from varying degrees of eutrophic waters for the period from Nov. 2007 to Oct. 2008. The results show that E. crassipes grows normally in different degrees of eutrophic waters with initial concentrations of 2.06~20.08 mg·L-1 TN and 0.14~1.43 mg·L-1 TP. Accumulated E. crassipes biomass in eutrophic waters increases by 41.03~47.12 kg·m-2, at a mean growth rate of 0.096~0.262 kg·m-2·d-1 for the period of study. Nitrogen and phosphorus concentrations in E. crassipes aboverground part are 24.16~34.15 mg·g-1 and 3.46~6.90 mg·g-1 respectively. Those in the belowground part are 11.76~18.45 mg·g-1 and 6.02~8.50 mg·g-1 respectively. Total nitrogen and phosphorus uptaken by E. crassipes are 43.06~71.16 g·m-2 and 8.68~16.63 g·m-2 respectively. Meanwhile, accumulated assimilation of nitrogen and phosphorus increases with increasing initial nitrogen and phosphorus concentration in eutrophic waters. There is a significant positive correlation between accumulated nitrogen and phosphorus assimilation with E. crassipes biomass. In eutrophic waters Ⅰ and Ⅱ with lower nitrogen and phosphorus load, contribution of E. crassipes uptake to nitrogen and phosphorus removal is above 100% indicating some uptake of nitrogen and phosphorus from the sediment by E. crassipes. In eutrophic waters Ⅲ and Ⅳ with higher nitrogen and phosphorus load, contribution of E. crassipes uptake to nitrogen and phosphorus removal is above 42.32% and 83.79% respectively. E. crassipes uptake is therefore a major pathway of nitrogen and phosphorus removal in eutrophic waters.
Effect of different amendments on growth and heavy metal accumulation in Vicia villosa Roth varglabrescens cv Yunguangzao in soils polluted with lead/zinc mine tailings
LI Zheng-Qiang, XIONG Jun-Fen, MA Qiong-Fang, ZHANG De-Shan, HE Zhong-Jun, WANG Ji-Xiu
2010, 18(1): 158-163. doi: 10.3724/SP.J.1011.2010.00158
Abstract(2442) PDF(1619)
Abstract:
A pot experiment was conducted to determine the effect of four amendment substances (organic manure, lime, vermiculite and dolomite) on growth and heavy metal (Cu, Cd, Pb and Zn) accumulation in Vicia villosa Roth varglabrescens cv Yunguangzao in soils contaminated with lead /zinc mine tailings. Changes in soil pH and available heavy metal content induced by the amendments were also analyzed. The results show that the four amendments significantly increase soil pH while reducing available heavy metal content in soil. Hence transportation of Cd and Pb from the root to shoot of V. villosa is limited, which reduces heavy metal accumulation in the shoot. The amendments significantly improve growth of V. villosa, while increasing plant height, shoot and root fresh weight and chlorophyll content of V. villosa. The induced changes in plant height and shoot fresh weight are significant (P < 0.05) compared to CK. Amendments significantly affect heavy metal accumulation in the root of V. villosa. The effects of the four amendments on root heavy metals content in V. villosa are also significant.
Evaluation of comprehensive benefit of rice-fish agriculture and rice monocropping —A case study of Qingtian County, Zhejiang Provinc
LIU Mou-Cheng, ZHANG Dan, LI Wen-Hua
2010, 18(1): 164-169. doi: 10.3724/SP.J.1011.2010.00164
Abstract(2552) PDF(2170)
Abstract:
Agriculture is the backbone of national economies of developing countries. On the one hand, the development of modern agriculture and agricultural mechanization plays an important role in food supply. On the other hand, some outstanding traditional agricultural models are better adapted for mountainous areas. The value of rice-fish agriculture and rice monocropping in Qingtian County of Zhejiang Province was comprehensively evaluated using ecological economic models. Results of the study show that net income from rice-fish agriculture is 2 184 Yuan·hm-2 higher than that of rice monocropping. However, there is an additional cost of 1 453 Yuan per hectare, implying that Return on Investment (ROI) of rice-fish agriculture is less than that of rice monocropping. Furthermore, ecological service value and comprehensive benefit of rice-fish agriculture are 7 447 Yuan·hm-2 and 9 631 Yuan·hm-2 higher respectively than those of rice monocropping, and ROI and ROI% are higher in rice-fish agriculture than rice monocropping. To adopt the rice-fish agriculture widely as it contributes more to society and the ecosystem, the government compensation should be provided to farmer with a base point of 6 532 Yuan·hm-2 and upper limit of 16 045 Yuan·hm-2.
Analysis of cultivated land utilization change in Loess Hilly and Gully regions based on dissipative structure theory
HAO Shi-Long, CAO Lian-Hai, LI Chun-Jing
2010, 18(1): 170-174. doi: 10.3724/SP.J.1011.2010.00170
Abstract(1637) PDF(1406)
Abstract:
Cultivated land protection plays an important role on sustainable social-economic development in China. For the severe situation of land use and protection in the Loess Hilly and Gully region, a dissipative structure theory was used to set up an entropy change model in accordance with the characteristics of cultivated land utilization. Three factors including changes in benefits of cultivated land utilization, photosynthetic transformation and environment play key role in orderliness of cultivated land. Shanghuang experimental area was used to analyze the entropy change rules of cultivated lands in different periods. Results show a gradual decrease in entropy from the “sixth five-year plan” to the “tenth five-year plan” period. The individual entropy change value flow is -0.652 4, -0.198 8, -0.342 1, -0.266 4 and -0.290 0 respectively. This indicates a gradual increase in the orderliness and stability of cultivated lands in the study area.
Dynamic analysis of arable land use via productivity sustainable index — A case study of Farm 45 Irrigation Area of the Xinjiang Production and Construction Corps
ZHENG Zhong, ZHANG Feng-Rong, ZHU Zhan-Qiang
2010, 18(1): 175-179. doi: 10.3724/SP.J.1011.2010.00175
Abstract(2054) PDF(1562)
Abstract:
Due to the nature of absolute data, ecological footprint, capacity and deficit cannot be used to reflect and compare regional sustainable use level of arable lands. Based on the theory and method of ecological footprint (EF), productivity sustainability index (PSI) is developed as a new indicator for quantitative evaluation of sustainable use of arable lands. The index is the ratio of ecological capacity to the total of ecological capacity and footprint of arable lands in a region. This describes the level of regional land productivity supply meeting ecological contradictions between arable land supply and human demand. PSI is in the range of 0 to 1. A high index indicates high sustainable development of land use in a region and vice versa. A PSI of 0.5 implies marginal sustainable development. Hence the level of sustainability of a region can be evaluated based on the distance of PSI to 0.5. In this paper therefore, the results of a case study of Farm 45 Irrigation Area of the Xinjiang Production and Construction Corps for 1995~2005 show a weak sustainable level of arable land use for 1998~2003. The other years are simply not sustainable. This growth direction is not what we expect for ecological equilibrium. This shows that PSI is a more reasonable indicator than the absolute indicator of traditional sustainable level via ecological deficit.
Agricultural landscape preferential model from subjective preference and spatial landscape index: A case study of the characteristics of 11 agricultural landscape partitions in Beijing
ZHANG Xiao-Tong, LI Liang Tao, WANG Xiao-Jun, XIAO He, JI Ning, WANG Jing
2010, 18(1): 180-184. doi: 10.3724/SP.J.1011.2010.00180
Abstract(2031) PDF(1547)
Abstract:
Balanced Incomplete Block-Laws of Comparative Judgement (BIB-LCJ) test was conducted to obtain the people’s visual landscape preferences with a preferential-based test for actual landscape pictures in 11 agricultural landscape partitions in Beijing. 46 undergraduates majoring in relevant environmental sciences were recruited for the test. For each picture, windows in equilateral triangular shape with 250 m side length were defined to cover different areas corresponding to the visual field. The data from the areas in the land use map of Beijing in 2006 at a scale of 1:10 000 was analyzed using landscape spatial indices. Eleven indices, including 9 landscape spatial indices, level of management and proportion of green, were used as independent variables, and multiple stepwise was used to establish the landscape visual preference models of various landscape partitions in Beijing. The analysis show that green proportion, management level, patch cohesion index, aggregation index, fractal index distribution have positive effect, and proportion of openness has negative effect on landscape visual preferences in the partitions. Patch number, contagion, largest patch index, proportion of disturbance and proportion of forest have different correlations with landscape visual preferences in different partitions.
Dynamic law of virtual water equilibrium for foodstuff production and consumption in China
ZOU Jun, HU Juan, YANG Yu-Rong
2010, 18(1): 185-188. doi: 10.3724/SP.J.1011.2010.00185
Abstract(1786) PDF(1590)
Abstract:
In order to optimize spatial allocation of water resources, spatial distribution dynamics of virtual water for foodstuff production, consumption and their equilibrium in China for 1998~2007 were analyzed. The analysis shows that North China outputs increasing virtual water for foodstuff production from 3 019.1×108 m3 in 1998 to 3 197.5×108 m3 in 2007. On the other hand, South China shows the opposite trend where virtual water for foodstuff production declines from 3 207.5×108 m3 in 1998 to 2 801.4×108 m3 in 2007. There is 4.43% growth of virtual water consumption for foodstuff from 1998 to 2006 in China. The north has 7.70% growth of virtual water consumption for foodstuff while the south has only 1.84% growth. Virtual water equilibrium for foodstuff production and consumption is negative in China. However, the south and the north have different trends. The south has an increasing negative equilibrium trend whereas the opposite is the case for the north. The North-South Water Diversion of virtual water in China has an increasing significant implication for foodstuff production and consumption. The northeast is a typical virtual water output region whereas Huang-Huai-Hai, North China, Southeast and South China are typical virtual water input regions. From the perspective of water resources, the study shows that foodstuff production and consumption pattern in China has some problems that requires proper adjustment.
Spatio-temporal variation of karst ecosystem service value and its correlation with ambient environmental factor
ZHANG Ming-Yang, WANG Ke-Lin, LIU Hui-Yu, CHEN Hong-Song, ZHANG Chun-Hua, YUE Yue-Min
2010, 18(1): 189-197. doi: 10.3724/SP.J.1011.2010.00189
Abstract(1935) PDF(1707)
Abstract:
For the restoration and reconstruction of karst ecosystems, it is vital to explore the spatio-temporal variations in ecosystem service value of karst regions in Southwest China and its correlation with ambient environmental factors. Based on multi-temporal satellite imagery, weather and statistical data, spatial distributions and dynamics of karst ecosystem service value were evaluated for Northwest Guangxi. The links between karst ecosystem service value and ambient environmental conditions were also analyzed for 1985~2005 using Canonical Correspondence Analysis (CCA). The results show an initial decline in karst ecosystem service value, followed by a steady increase at 109.652, 103.384 and 106.257 billion Yuan in 1985, 2000 and 2005 respectively. Ecosystem service values for nutrient cycling, organic matter production, gas regulation and soil formation are high, with respective total contribution ratio of 72.69%, 70.18% and 72.10% in 1985, 2000 and 2005. However, ecosystem service values for water and soil conservation, recreation and culture are much low and well below 10 billion Yuan. Woodlands and shrubs are the main contributors to ecosystem service value with total contribution ratio of 71.22%, 73.66% and 67.03% in 1985, 2000 and 2005 respectively. While residential and rocky land contribute less to the ecosystem service, their contribution ratio sum are 0.62%, 0.52% and 0.76%, respectively. CCA ordination diagram shows that ecosystem service values are closely linked with ambient environmental factors. Slope gradient, elevation have a significant impact on ecosystem service value. There also exist significant spatio-temporal differences among these factors. Ecosystem service value of the studied area shows a declining trend from West to East. Ecosystem service value for typical karst regions is obviously increasing, while that for non-karst regions markedly decreasing. Based on the study, ecological conditions are improving due to better policies such as ecological migration and afforestation of farmlands to control rock desertification.
Appraisal of ecological carrying capacity of regional urban-rural system aiming at Ecological Province — A case study of Hainan Province
ZHANG Fu-Gang, WANG Ye-Qiao, ZHANG Ying-Wen, LIU Yan-Sui
2010, 18(1): 198-202. doi: 10.3724/SP.J.1011.2010.00198
Abstract(2111) PDF(1454)
Abstract:
As the development is the mainline of ecological carrying capacity connotation evolution, it is vital to incorporate regional development into ecological carrying capacity research. This can enhance legislation of regional development policies for coordinated regional urban-rural development, environment protection and construction. In this paper, an evaluation index system was developed base on element characteristics and driver-mechanism of the regional urban-rural system to assess its ecological carrying capacity. The factor analysis method was applied, and Hainan Province, the first defined Ecological Province by the State Environment Protection Administration of China, for the period of 1996~2007 was as a case study. The results indicate an obvious fluctuation of the ecological carrying capacity of the regional urban-rural system in Hainan Province for 1996~2007. Ecological carrying capacity is relatively high for 1996, hitting the lowest level in 1998, and then generally steadily increases since the 21st century. Policy factors, especially Ecological Province strategy implementation, are important drivers of ecological carrying capacity in the region. Urban-rural system ecological carrying capacity of the province is remarkably promoted by socio-economic development, especially the economic growth and technology application. The province should seize advantage of the special economic zone policies. Moreover, eco-agriculture, eco-tourism and eco-industrial models should be emphasized in the region. Only in these ways would there be rapid economic and societal development as well as higher regional ecological carrying capacity in Hainan Province.
Factors needed to be re-considered during in-situ remediation practices of Pb-polluted soils with P
CHEN Shi-Bao, LI Na, WANG Meng, WEI Dong-Pu
2010, 18(1): 203-209. doi: 10.3724/SP.J.1011.20120.00203
Abstract(2098) PDF(2214)
Abstract:
The presence of phosphorus (P) and lead (Pb) in soil can lead to the formation of highly insoluble minerals of Pb5(PO4)3X (where X can be Cl?, OH?, F?, etc.). Hence low-cost phosphate-containing materials utilization was proposed as the best management practice (BMP) for remediation of Pb-polluted soils. Current studies involving in-situ remediation of Pb-polluted soils via phosphorus-compounds are reviewed in this paper. Key factors controlling pyromorphite formation kinetic, solution optimal pH and P/Pb molarity ratio, etc. are discussed in detail. Meanwhile, prospective studies are also discussed with the view to providing further information on remediation practices and their efficiencies in dealing with Pb-polluted soils.
Migration and transformation of agricultural non-point source pollutants in drainage ditches
LI Qiang-Kun, HU Ya-Wei, SUN Juan
2010, 18(1): 210-214. doi: 10.3724/SP.J.1011.2010.00210
Abstract(2569) PDF(2306)
Abstract:
The migration and transformation of agricultural non-point source pollutants in drainage ditches is an important step of agricultural non-point source pollution control and management. On the bases of analyses on the ecological structure and characteristics of drainage ditches, the ecology function of deposited materials, aquatic plant and microorganisms, and the interaction mechanism of these components to nitrogen, phosphorus pollutants were summarized. The study advances that further research should focus on the aspects of quantitative study on the reactions of different components of drainage ditch ecosystem, the migration model of agricultural non-point source pollutants in drainage ditches, and the relationship between ditch-wetland applications and regional eco-environments.
A review on terrestrial plant acclimation to global environment change
JIANG Chun-Ming, YU Gui-Rui
2010, 18(1): 215-222. doi: 10.3724/SP.J.1011.2010.00215
Abstract(2462) PDF(2259)
Abstract:
Global environment change has great impact on terrestrial ecosystems. To some extent, however, terrestrial plants can adjust to such influences. Physiologically, signal substances regulate physiological processes and small molecular substances actively accumulated or synthesized by plants alleviate injuries induced by adversities. Individually, photoassimilate reallocation to different plant organs is a very important mechanism through which plants adapt to changes in environmental conditions. Specific plant species survive in different resource conditions resulting from water and nitrogen trade-offs. Because of profligate use of non-structural carbon, plant growth may not be limited by carbon supply. Acclimation mechanisms of plant ecophysiological processes affect carbon budget in terrestrial ecosystem. Future studies should therefore focus on analyzing synthetic acclimation mechanisms at different scales and building an integrated model of these mechanisms to make more accurate predictions of the impact of future environmental changes on terrestrial ecosystem.

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