Table of Content

08 February 2012, Volume 31 Issue 02

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Articles

Vertical distribution patterns of organic carbon and its isotopic composition in typical soil types in Guizhou karst areas of Southwest China.

2012, 31(02):  241-247. 

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Taking two typical soil types (limestone soil and yellow soil) in Guizhou karst areas of Southwest China as test objects, this paper measured their pH value and organic carbon content as well as the carbon isotopic composition of dominant plant species foliage and litter and of soil organic matter (SOM), aimed to approach the vertical distribution patterns of soil organic carbon (SOC) and its stable isotopic composition (δ13Csoc) in the profiles of these two soil types. Limestone soil had a higher content of SOC, as compared with yellow soil. The SOC content in the profiles of limestone soil and yellow soil varied in the range of 3.6-69.8 and 2.4-51.2 g·kg-1, respectively. The SOC in yellow soil and yellow limestone soil mainly enriched in the 0-20 cm layer, while that in the 0-60 cm profile of black limestone soil decreased gradually with depth. The δ13Csoc in the profiles of black limestone soil and yellow soil ranged from -22.9‰ to -21.5‰ and from -25.6‰ to -22.4‰, respectively.
 The δ13Csoc in yellow soil increased with increasing soil depth, whereas that  in limestone soil was generally high in surface layer, increased rapidly down to a depth of about 20 cm，  and then decreased slowly. Compared with other soils, yellow limestone soil had a wider variation range of δ13Csoc (-23.7‰ to -18.2‰) in the profile, and the δ13C (δ13Cmax-δ13Cmin) value of SOM was 5.5‰. The δ13Csoc in limestone soil profile had a wider variation range than that in yellow soil profile during the process of litter degrading into surface soil organic matter. The δ13Csoc increased by 2.6‰-3.0‰ in yellow soil profile and by 5.5‰-6.3‰ in limestone soil profile. The results suggested that the changes in δ13Csoc and SOC content with depth in different soil profiles could provide information about the input of plant residue and its degradation and accumulation in soil, and help to reveal the mechanism of soil carbon cycle and to understand the soil formation process.

Effects of fertilization on the carbon density of sawtooth oak plantations and the soil respiration in dormant period.

2012, 31(02):  248-253. 

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This paper measured the carbon density of the sawtooth oak (Quercus acutissima Carr.) plantations in Hongyashan Forestry Farm of Chuzhou City, Anhui Province of East China under different fertilization treatments (0, 0.15, 0.30, and 0.45 kg·tree-1), and determined the soil respiration components in dormant period by the method of trenching for separation. In the treatments 0, 0.15, 0.30, and 0.45 kg·tree-1, the total carbon density of the stands was 73.68, 84.49, 87.20, and 91.70 t·hm-2, respectively. As compared with t〖JP2〗reatment 0 kg·tree-1, the carbon densities of the stem, branch, and litter in the other three fertilization treatments increased significantly (P<0.01). The soil total and heterotrophic respiration rates increased with increasing fertilization rate, being 48.9% and 38.6% higher in treatment 0.45 kg·tree-1 than in treatment 0 kg·tree-1, respectively. Compared with root respiration, soil heterotrophic respiration had a far greater contribution to the soil total respiration. In the treatments 0, 0.15, 0.30, and 045 kg·tree-1, the contribution rate of soil heterotrophic respiration was 50, 38, 34, and 32 times of that of root respiration, respectively. The soil respiration was controlled by both abiltic and biotic factors, among which, soil moisture content and litter carbon content correlated significantly to the soil total respiration and heterotrophic respiration (P<005).

Soil stoichiometry characteristics of alpine meadow at its different degradation stages.

2012, 31(02):  254-260. 

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To clarify the soil stoichiometry characteristics of alpine meadow at its different degradation stages, the native Kobresia meadow, mildly degraded meadow, and seriously degraded sandy meadow were selected to measure their soil organic carbon (SOC), total nitrogen (N),
total phosphorous (P), and total potassium (K) contents at different soil depths. With the degradation of alpine meadow, the SOC, N, P, K, C∶N, C∶P, C∶K, N∶P, N∶K, and P∶K in 0-100 cm profiles presently a decreasing trend, and SOC was most sensitive to the degradation, followed by total N, P, and K. The SOC and N in top (0-20 cm) soil could be used as the most sensitive indicators for the degradation degree of alpine meadow. The vertical distribution of SOC, N, P, and K differed with the degradation stage of the alpine meadow. For native Kobresia meadow and mildly degraded meadow, the SOC, N, P, K, C∶N, C∶P, C∶K, N∶P, N∶K, and P∶K in 0-40 cm soil layer decreased sharply with soil depth, but those in 40-100 cm soil layer had a slow decrease and tended to be stable; for seriously degraded sandy meadow, these stoichiometry characteristics remained unchanged with soil depth.

Storage of coarse wood debris and its spatial distribution in a tropical seasonal rain forest in Xishuangbanna of Southwest China.

2012, 31(02):  261-270. 

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Coarse wood debris (CWD) plays an important role in the nutrient cycling and carbon dynamics in forests, but little is known on the relationships between CWD storage and its spatial distribution. In this paper, an investigation was conducted on the CWD distribution in a 1-hm2 plot of a tropical seasonal rain forest in Xishuangbanna. In the plot, the CWD with diameter ≥ 10 cm made up 68.02% of the total
biomass of litterfalls, and around 45.72% of the CWD was at the medium or late stage of decomposition. The majority of large size CWD distributed on the slopes of 15°-25°, and their saturated water contents increased with their decay degree, which would help to improve the local water and nutrient condition. The distribution of CWD was affected by wind direction and local humid and hot environment, but the angle of the CWD laid on the ground tended to be random. The CWD storage and distribution would greatly contribute to the habitat heterogeneity and species diversity in tropical seasonal rainforests.

Abundance and distribution pattern of tree cavity in tropical forest in Xishuangbanna, Southwest China.

2012, 31(02):  271-275. 

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Tree cavity is the key component of forest ecosystem, playing important roles in the conservation of animal diversity. To clarify the quantitative characteristics and distribution patterns of tree cavities in tropical forests, a ground-based observation was conducted in a 20 hm2 tropical forest dynamic monitoring plot in Xishuangbanna of Southwest China to survey the cavities on all the living trees with diameter at breast height (DBH) ≥5 cm. In the plot, 1725 trees belonging to 208 species, occupying 6.22% of the total, had tree cavities, and the m〖JP2〗ean density of the cavities was 108.4 cavities·hm-2. The number of the cavities per tree increased with DBH, and varied among tree species. The probability of the trees being cavity-bearing increased with increasing DBH, and differed significantly with tree species. As compared with the investigations on the tree cavities at other latitudes, our findings supported the inference proposed by Boyle et al. (2008), i.e., the forests at low latitudes would have a higher density of tree cavities.

Combustion characteristics of live branches of 15 common woody plant species in Kunming, Yunnan Province.

2012, 31(02):  276-281. 

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To understand the live branches combustion characteristics of 15 common native woody plant species in Kunming, a thermal radiation ignition experiment with small and medium sizes branches and an oxygen index experiment with small size branches were conducted during peak forest-fire season. Based on the analysis of the sample’s diameter, moisture content, time to ignition, quenching time of flaming combustion, smoking temperature, and weight loss, an integrated combustion parameter (S) reflecting the combustion characteristics was proposed. According to the calculated S, the combustion order of the test tree species was Pinus yunnanensis < Illicium simonsii < Pinus armandii < Cyclobalanopsis glaucoides < Pinus yunnanensis var. pygmaea < Cinnamomum glanduliferum < Ternstroemia gymnanthera < Rhododendron decorum < Rhododendron spinuliferum < Michelia yunnanensis < Rhododendron siderophyllum < Lyonia ovalifolia < Lithoca mairei < Castanopsis orthacantha < Camellia pitardii. The oxygen index experiment indicated that the small size live branches of the 15 tree species all had obvious flame-retardant characteristics, of which, 4 (R. decorum, I. simonsii, T. gymnanthera, and L. ovalifolia) were difficultly inflammable, 7 (M. yunnanensis, P. yunnanensis, P. yunnanensis var. pygmaea, P. armandii, C. glaucoides, C. glanduliferum, and C. pitardii) were combustible, and 4 (R. siderophyllum, R. spinuliferum, L. mairei, and C. orthacantha) were inflammable. The reasons for the difference between the classifications derived by the two experiments were analyzed.

Quantitative dynamics of Pteroceltis tatarinowii populations in Huangcangyu Nature Reserve of Anhui Province, East China.

2012, 31(02):  282-291. 

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Base on the field survey data, the static life tables of Pteroceltis tartarinowii populations in different habitats of Huangchanyu Nature Reserve were established, and the populations’ quantitative characteristics were evaluated by analyzing the curves of survival rate, mortality rate, and vanishing rate as well as four survival function curves. The dynamics of the populations were also analyzed by the quantitative analysis of population structure and the time sequence model. In different habitats of the Reserve, the DBH structure of P. tartarinowii populations was overall presented as pyramid type, with relatively large amount of young- and middle-aged but less amount of old individuals. The populations had definite fluctuations in their growth dynamics, but the dynamic indices Vpi and Vpi′ (considering the external interferences) were both greater than zero. A stable-growth type population was thus shown in different habitats. The P. tartarinowii populations in different habitats had a higher mortality at young stage, but the mortality decreased gradually with increasing tree age. When entering into physiologically consenescence period, the populations’ mortality re-ascended on sunny and shady slope, but decreased slightly in valley due to the individuals better protected. The survival curves of the populations differed with habitats, inclined to be Deevey-Ⅱ type on sunny and shady slope and Deevey-Ⅲ type in valley. The four survival function curves indicated that the populations on sunny and shady slope was decreased rapidly at young, stable at mature, and declined at old stage, whereas the populations in valley was decreased quickly at young, and stable at mature and old stages. Time sequence model suggested that in the next 2 and 5 years, the P. tartarinowii populations in different habitats of Huangchanyu Nature Reserve would present a stable-growth trend.

A comparison of physiological characteristics of eleven common Moraceae species in karst areas of Northwest Guangxi, South China.

2012, 31(02):  292-298. 

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In order to select excellent plant species suitable for economic development and vegetation restoration in karst areas, the leaves of 11 common Moraceae plants growing in karst areas of Northwest Guangxi were collected, with their 14 physiological indices such as soluble sugar and proline contents determined. There existed obvious differences in the physiological characteristics among the plants. Ficus hispida had the highest chlorophyll content but F. microcarpa had the lowest one. The soluble sugar content was the highest for
Morus alba but the lowest for F. virens. M. alba contained the highest proline content but F. esquiroliona had the lowest one. There were also obvious differences in other physiological indices, e.g., antioxidant enzyme activities, water-soluble protein, and membrane permeability, among the plant species. All of these indicated that Moraceae plants had complicated adaptation mechanisms and survival strategies to fit the karst environment. It was suggested that in the process of vegetation restoration in karst areas, a reasonable configuration of different species should be considered based on the soil physical and chemical background and the plant biological characteristics. The preferred plant species suitable for rocky hill vegetation rehabilitation would be Broussonetia papyrifer, F. virens, F. microcarpa, Cudrania tricuspidata and F. pumila, the species suitable for wild fruit resources development would be F. esquiroliona and F. variegata var. chlorocarpa, and those suitable for scale management of cash crops would be F. carica and M. alba.

Impacts of coal mining on wild plant species richness and species composition.

2012, 31(02):  299-303. 

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The damage of coal mining on ecological environment has long been concerned. It is of significance to study the destroying mechanisms of the damage and related remediation methods to restore the damaged ecological environment in coal mining regions. This paper studied the impacts of coal mining on the wild plant species richness and species composition. A total of 16 out of 338 coal mines in northwest Shanxi Province were randomly selected to investigate the wild plant species in coal mine goaf area and coal mine non-goaf area, with the difference in the plant species richness and the similarity of the plant species composition between the goaf and non-goaf areas analyzed by Gleason richness index and Srensen similarity index, respectively. Coal mining decreased the wild plant species richness, and the wild plant species number was obviously lower in goaf area than in non-goaf area. Coal mining also induced the changes of wild plant species composition, resulting in an obvious difference in wild plant species composition between the goaf and non-goaf areas.

Distribution features of transgenic insect-resistant cotton’s recombinant DNA in soil. 

2012, 31(02):  304-312. 

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By using three-room rhizobox method, this paper studied the distribution features of the recombinant DNA of transgenic insect-resistant cotton in different zones of the cotton soil. A semi-quantitative PCR technology for detecting the recombinant DNA in soil was developed to
investigate the distribution patterns of reference phosphofructokinase gene fragments and of 35S-Cry1A and 35S-NPTII construct-specific fragments in different soil zones at the three growth stages (40th, 50th, and 60th day after sowing) of the cotton. The phosphofructokinase gene fragments were detected in all rhizoplane, rhizosphere soil, and one non-rhizosphere soil at the 40th and 50th day after sowing, and in all soil samples at the 60th day. The 35S-Cry1A construct-specific fragments were detected in two rhizoplane and one rhizosphere soil at the 40th and 50th day, respectively, but none in non-rhizosphere soil, and detected in all rhizoplane, rhizosphere soil, and one non-rhizosphere soil at the 60th day. The relative amount of 35S-Cry1A construct-specific fragments had nearly the same variation trend as that of the phosphofructokinase gene fragments. The 35S-NPTII construct-specific fragments were detected in all rhizoplane at the 40th, 50th, and 60th day, and in all rhizosphere soil and two of the other soil samples at the 60th day. The variation trend of the relative amount of 35S-NPTII construct-specific fragments was basically the same as that of the 35S-Cry1A construct-specific fragments. Similar to the distribution of phosphofructokinase gene fragments, the 35S-Cry1A and 35S-NPTII construct-specific fragments mainly located in rhizoplane and rhizosphere soil, and the distribution areas of the recombinant DNA expanded gradually with the growth of the cotton.

Distribution pattern of soil organic carbon in Poyang Lake wetland and related affecting factors. 

2012, 31(02):  313-318. 

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In order to provide basic data for further study the wetland carbon cycle in Poyang Lake and to understand the responses of soil organic carbon pool to climate change, sampling belts were installed in Nanji Wetland National Nature Reserve, and soil organic carbon content was analyzed. In the Reserve, the soil organic carbon content in 0-15, 15-30, and 30-50 cm layers was 1.07%-352%, 0.31%-1.96%, and 0.27%-0.92%, respectively, being decreased sharply from top to deep layers. The soil carbon density in 0-50 cm depth ranged in 302-10.19 kg·m-2, and that in 0-15 cm layer accounted for 42.5%-72.6% of total carbon stock. Both the soil organic carbon content and the carbon density were the highest under Carex cinerascens-dominated community. Soil moisture and plant biomass were the two main factors affecting the distribution of soil organic carbon and carbon density. Soil moisture explained 40% of the top layer organic carbon variation, while total plant biomass explained 28% of the variation. By comparison, the soil carbon density in Poyang Lake wetland was closer to that in other lake wetlands in the middle and lower reaches of Yangzi River, but far lower than that in the peat lands in Ruoergai Plateau and Sanjiang Plain.

Relationships between soil moisture and environmental factors at different spatial scales.

2012, 31(02):  319-323. 

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Taking Yanhe basin as a case, this paper studied the relationships between soil moisture and environmental factors at slope surface, small watershed, and regional scales by using canonical correspondence analysis (CCA). In the basin, slope position and land use type were the main factors controlling soil moisture change at slope surface scale, slope and land use type were the dominating factors at small watershed scale, while evapotranspiration, precipitation, and land use type were the key factors at regional scale, which suggested that with the enlargement of studied spatial scale, the information contained by topographic factors (slope direction, slope position, and slope) gradually converted to climatic factors (evapotranspiration and precipitation), but the information contained by land use type was almost invariant. This study could have significance in studying soil moisture model and hydrological model and their extrapolation.

Effects of sowing date on the growth and yield of spring wheat. 

2012, 31(02):  324-331. 

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In order to provide basis for high-yielding cultivation of spring wheat in semi-arid region, a field experiment was carried out in Dingxi of Gansu Province, Northwest China in 2010 to study the effects of different sowing dates (March 8, March 18, March 28, and April 7) on the growth and development and yield formation of spring wheat. With the delay of sowing date, the days from sowing to heading stage shortened, resulting in an evident shortening of the whole growth period. Before late May, the earlier the sowing, the larger the leaf area index (LAI) was; after late May, the later the sowing, the larger the LAI. Early sowing made the peak of LAI advanced, while late sowing postponed the peak of LAI. Before late June, the earlier the sowing, the higher the chlorophyll content was; after late June, the earlier the sowing, the faster the decline of chlorophyll content. The population growth rate and net assimilation rate after heading stage had significant differences among different sowing dates, being the highest when the sowing date was March 18 and the lowest when the sowing date was April 7. Whatever the sowing date, the dry matter accumulation of wheat plants increased rapidly at jointing stage. Early sowing made the dry matter accumulation before jointing stage slower. With the delay of sowing date, the dates with the peak values of dry matter accumulation rate advanced, those with the peak values of grain filling rate postponed, and the
1000-kernel weight decreased after an initial increase. Sowing date had significant effects on the grain parameters at three grain filling phases. The grain yield differed significantly with sowing dates, being the highest when the sowing date was March 8.

Effects of diversity cultivation of konjac and maize in controlling konjac’s soft rot disease in Yunnan Province, Southwest China.

2012, 31(02):  332-336. 

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A field experiment with diversity cultivation of konjac and maize was conducted in Fuyuan County of Yunnan Province to study the konjac’s soft rot disease incidence, plant growth, and isolation efficiency of Erwinia carotovora causing konjac’s soft rot. Among the test cultivation modes, konjac and maize rotation was most effective in controlling konjac’s soft rot disease, which could decrease the preliminary infection sources and delay the peak of disease incidence for one month. In the rotation field, intercropping maize with konjac decreased the disease severity by 59%, as compared with konjac monocropping, and the isolation efficiency of E. carotovora from the tuber of intercropped konjac was significantly lower than that of monocropped konjac. In intercropping system, there was a significant difference in konjac height but little difference in soft rot disease incidence among different cultivation lines. However, the isolation efficiency of E. carotovora from infected plant was significantly different, and there was a positive correlation between the isolation efficiency and the line distance. It was suggested that konjac and maize rotation combined with intercropping could be an efficient way for controlling konjac’s soft rot disease, and maize would be the physical barrier for the pathogen spread in intercropping system.

Effects of temperature variation on the light-response characteristics of tobacco leaf photosynthesis.

2012, 31(02):  337-341. 

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By using Li-6400 photosynthesis determination system to control leaf chamber temperature, this paper studied the photosynthetic light-response characteristics of middle tobacco leaves at their initial ripening stage at 17, 20, 25, 30, and 35 ℃. With increasing temperature, the net photosynthetic rate (Pn), maximum net photosynthetic rate (Pnmax), initial slope (α), and stomatal conductance (Gs) decreased after an initial increase, with the maximum at 20 ℃, while the Pn was inhibited obviously at 35 ℃ by strong light. The light compensation point (LCP) and dark respiration rate (Rd) increased with increasing temperature, but decreased slightly at 35 ℃, as compared with those at 30 ℃. The light saturation point (LSP) had a variation of ‘down-up-down’ with increasing temperature, being higher at 35 ℃ and 17 ℃. The transpiration rate (Tr) increased but the water use efficiency (WUE) decreased with increasing temperature. However, WUE was higher at 20 ℃ than that at the other temperatures
under strong light. It was suggested that the most favorite temperature for tobacco photosynthesis was 20 ℃, at which, the water- and gas regulation capability of stomata was the strongest. High temperature over 30 ℃ would work against tobacco photosynthesis.

Effects of air humidity on tomato plant photosynthesis and dry matter accumulation at sub-high temperature.

2012, 31(02):  342-347. 

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An experiment with growth chambers was conducted to study the effects of air relative humidity (RH) on the photosynthesis and dry matter accumulation of tomato plant at 33 ℃ from 11:00 to 15:00. Three treatments were installed, i.e., 70%-80% (high RH), 50%-60% (medium RH), and 30%-40% (low RH, control). After treated for 25 days, the tomato leaf chlorophyll content and net photosynthetic rate in treatment high RH were significantly higher than those in treatment low RH, while the empty rate of tomato in treatment low RH was 18.4% higher than that in high treatment RH (P<0.05), suggesting that at sub-high temperature 33 ℃, 70%-80% air relative humidity could benefit the improvement of tomato photosynthesis and fruit quality.

Community structure and its seasonal variation of phytoplankton in adjacent waters of Yangjiang Nuclear Power Plant.

2012, 31(02):  348-358. 

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Based on three cruise surveys in 2009 and 2010, an investigation was carried out on the community structure and its seasonal variation of phytoplankton in the adjacent waters of the nuclear plant being constructed at the second stage in Yangjiang City of Guangdong Province. The water range affected by the thermal effluent and the effects of the nuclear plant on the phytoplankton were predicted. In 78 samples, a total of 125 species (including 2 varieties) were identified, belonging 50 genera of 6 classes, among which, diatoms were predominant in the species composition. Dinoflagellates contributed the second major group. Chromophyta abundance increased sharply in November but not reached the algae bloom threshold of cell abundance. The dominant species were Leptocylindrus danicus, Guinaridia striata, Skeletonema costatum, Pseudonitzchia pungens, Melosira moniliformis, Phaeocystis globosa, Ceratium furca, and Chaetoceros densus. The species composition and phytoplankton cell abundance showed significant seasonal changes, with different high abundance regions. The seasonal average cell abundance of phytoplankton was (111.8±120.6)SymboltB@103
cells·L-1. The overall horizontal distribution of phytoplankton cell abundance had a trend of decreased from nearshore in east to offshore in southwest. The Shannon diversity index was coincident with Pielou evenness index. The low values of the two indices in November suggested that in the survey areas, phytoplankton community was unstable, and water quality was unhealthy. The potential water range affected by the thermal effluent was within 10 km. The seasonal variation of phytoplankton species composition indicated its flexibility to temperature. The occurrence of high abundance of Phaeocystis globosa should be paid attention. The high velocity of flow and the widen water area around Yangjiang Nuclear Power Plant benefited water exchange, and thus, the second-stage project of the Yangjiang Nuclear Power Plant would not make a notable impact on the phytoplankton community structure in the adjacent waters of the Plant.

Feeding habits of fish assemblage in headwater streams of Chencun Reservoir in Huangshan Mountain.

2012, 31(02):  359-366. 

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Fish samples were collected from the headwater streams of the Chencun Reservoir in Huangshan Mountain in November 2010, with the feeding habits of nine dominant fish species examined. These fishes mainly fed on organic detritus, alga, and invertebrates, suggesting that they were omnivorous or invertivores. One-way ANOSIM indicated that the diet composition varied significantly with fish species, but existed part overlap (P<0.001). The diet diversity and food niche breadth also varied significantly with fish species (P<0.05). Generally, benthic fishes could feed on more diverse diet sources than non-benthic ones, suggesting the possible correlation between fish diet diversity and microhabitat preference. According to the index of diet overlap, there was an obvious diet overlap (D>0.3) among the nine dominant fishes, and especially for Zacco platypus, Acrossocheilus fasciatus, Pseudorasbora parva, Rhodeus bitterling, and Cobitis rarus, their diet overlap index was D>0.9. The above-mentioned diet characteristics of the fishes could have close relations with the exogenous food supply and unstable physical habitat of the headwater streams.

Feeding traits of Gambusia affinis and their relations with zooplankton and environmental factors.

2012, 31(02):  367-373. 

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From November 2008 to April 2009, an investigation was conducted to understand the feeding traits of Gambusia affinis and their relations with the dynamics of zooplankton population, water temperature, and light intensity in the Minghu pond in Jinan University campus in autumn (November), winter (December-February), and spring (March-April). In the pond, G. affinis mainly fed zooplankton, especially cladocera and copepod. The daily mean temperature and daily mean abundance of the zooplankton changed significantly with the three seasons, but the repletion index of the alimentary canal of G. affinis had little change. The repletion index had no significant relationships with the zooplankton abundance, water temperature, and light intensities in the three seasons. No matter what season, the G. affinis had a day-night feeding rhythm, and its repletion index in the daytime (10:00-18:00) was higher than that in the nighttime (22:00-6:00). The diurnal feeding rhythm of G. affinis was significantly affected by light intensity, but not by the diurnal changes of zooplankton abundance and water temperature.

Bio-scavenging of self-pollutants with different carbon and nitrogen loads from a raft bivalve and macroalgae culture system by deposit-feeding sea cucumber Apostichopus japonicus Selenka.

2012, 31(02):  374-380. 

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Self-pollutant loading of bivalve biodeposits and macroalgae detritus from the raft culture system in the shallow sea of North China may negatively affect the aquaculture environment, while deposit-feeders may effectively utilize these particulate wastes and act as the scavenger. In this study, a laboratory experiment was designed to estimate the carbon and nitrogen budgets of the deposit-feeding sea cucumber Apostichopus japonicus fed with five simulative particulate wastes (biodeposits and/or powder algae) from the raft bivalve and macroalgae culture system, and evaluate the bio-scavenging efficiency (SE) of the wastes carbon and nitrogen. A. japonicus could effectively ingest the particulate wastes, with the feeding rates of carbon and nitrogen ranging 3577-18118 mg C·g-1·d-1 and 6.08-14.28 mg N·g-1·d-1, respectively. The feeding rates of carbon and nitrogen increased with the increasing carbon and nitrogen contents of self-pollutants. The established budget showed that the carbon loss from feces accounted for the majority of the ingested carbon (59.3%-97.1%), and the carbon used for growth (-70%-61%) was less than the carbon loss in respiration (99%-373%). As for nitrogen budget, the nitrogen loss in excretion accounted for the majority of the respiration nitrogen (531%-631%), the nitrogen loss in defecation ranged 277%-392%, and the nitrogen used for growth was -2.3%-16.7%. The scavenging efficiencies of carbon and nitrogen (SEC,SEN) in the sea cucumbers fed with the particulate wastes were 0.83-4.57 mg C·g-1·d-1 and 0.28-076 mg N·g-1·d-1, respectively. Moreover, a trend was observed that the SEC and SEN increased with the increasing carbon and nitrogen contents of the wastes, with the regression equations being SEC=07368+14.9488C and SEN=0.2281+0.2202N, respectively.

Impacts of environmental pollution on macrobenthos diversity in Xiaoqing estuary of Shandong Province, East China.

2012, 31(02):  381-387. 

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Based on the investigation data of the benthos at 8 sampling locations in Xiaoqing estuary and at 8 locations in Yellow River estuary in July 2008, a comparative study was made on the diversity characteristics (species composition, biodiversity pattern, and stability) of the benthic communities in the two estuaries by using various diversity indices, and analyzed the relationships between the diversity characteristics and 14 water environmental variables by adopting Spearman correlation analysis. In Xiaoqing estuary, a total of 38 macrobenthos species were recorded, belonging to 4 phyla, 6 classes, 17 orders, 35 families, and 37 genera, with the value of average taxonomic distinctness being 85.7 and that of the variation in taxonomic distinctness being 5856. In Yellow River estuary, there were 48 species of macrobenthos in total, belonging to 6 phyla, 9 classes, 24 orders, 42 families, and 45 genera, with the value of average taxonomic distinctness being 89.3 and that of the variation in taxonomic distinctness being 435.8. The Shannon index (H′) of the macrobenthos in Xiaoqing estuary was lower, only one-third of that in Yellow River estuary. The Spearman correlation analysis showed that the H′ had significant negative correlations with the water body’s ammonium, nitrate, Cu, and Hg contents, suggesting that the diversity of benthic communities in Xiaoqing estuary decreased with increasing eutrophication, and the large input of nutrient nitrogen and heavy metals pollution had definite negative impacts on the macrobenthos community in the estuary. The abundance biomass comparison (ABC) curve and the W-statistic value generated by PRIMER software showed that the abundance curves were intersection with the biomass curve in Xiaoqing estuary, indicating that the present benthic communities in the estuary were moderately disturbed. The benthic opportunistic polychaetes amphipods (BOPA) index indicated that the 4 stations in Xiaoqing estuary had suffered different degrees of environmental pollution. The discharge of sewage and industrial wastewater could bring great impact on the ecological characteristics of the benthic communities in Xiaoqing estuary, and thus, it was of significance to improve the management of industrial and domestic sewage discharge, intensify clean production, and strengthen the governance of industrial pollution sources to restore the water quality and improve the ecological environment of Xiaoqing estuary.

Toxicity of molybdenum to cladoceran Moina macrocopa.

2012, 31(02):  388-393. 

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By means of acute toxicity and life-table experiments, this paper studied the acute toxicity of molybdenum (Mo) to Moina macrocopa and the effects of Mo on the life-table demographic parameters of M. macrocopa. The 48 h LC50 of M. macrocopa for Mo was 134.46 mg·L-1, with the 95% confidence interval of 107.05-194.53 mg·L-1. At concentrations of 2.0-15.0 mg·L-1, Mo had no significant effects on the life expectancy at birth, generation time, average life span, and net reproduction rate, but affected the intrinsic rate of M. macrocopa population increase significantly. In the control, the intrinsic rate of M. macrocopa population increase was 0.0448±0.0033 h-1, which was higher than that when the M. macrocopa was exposed to 6.4, 8.4, 11.2, and 15.0 mg·L-1 of Mo (0.0334±0.0007, 0.0327±0.0010, 0.0335±00003, and 00346±00005 h-1, respectively). Compared with other test organisms, M. macrocopa was more sensitive to Mo, and among all the life-table demographic parameters, the intrinsic rate of population increase was the most sensitive.

Non-point source pollution control function of constructed wetland in the ditches of paddy field system in Pearl River Delta.

2012, 31(02):  394-398. 

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This paper proposed a method of site-specific ecological ditch construction as an available technique for farmland non-point pollution control in Pearl River Delta. A typical paddy field system of Shangzhou Village located at Doumen District of Zhuhai City was selected as a case. The demonstration project was constructed by properly converting original farmland irrigation and drainage system to a well-designed wetland, and the control efficiency was evaluated. The results showed that the removal efficiency of suspended solid (SS), total phosphorus (TP), total nitrogen (TN), chemical oxygen demand (CODCr), NH+4-N, and biochemical oxygen demand after 5 days (BOD5) in the runoff of the paddy field system was 71.7%, 63.4%, 49.9%, 26.6%, 14.5%, and 11.6%, respectively, without harming inherent drainage function. The wetland system worked well in reducing nutrient and particulate pollutants, especially for TP and SS, but had no significant effects in reducing organic pollutants. The proposed method of site-specific ecological ditch construction was cost-effective, which reduced the pollution load of the runoff to adjacent water body and improved the farmland landscape, with definite demonstration value for controlling non-point source pollution in Pearl River Delta and in similar regions with developed economy, high population, and scarce land.

Spatiotemporal characteristics of water quality in Taihu Lake watershed based on ‘source-sink’ landscape change.

2012, 31(02):  399-405. 

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Aiming at the increasing worsening of non-point source pollution and the great change of land use pattern in Taihu Lake watershed, this paper studied the spatiotemporal variation of non-point source pollution in an area of the watershed based on source-sink landscape change. The test area was located in the 3 km buffer zone of Dati west bank of Taihu Lake, and 10 main channels in Yixing City connected with Taihu Lake were selected as the sampling plots. The source-sink location-weighted landscape contrast index (LCI) of these channels was calculated based on source-sink landscape theory, in addition to water sample collection and water quality analysis. Temporally, the LCI of 8 of the 10 channels had an obvious decrease in 2010, as compared with that in 2004. Correspondingly, a main indicator of water quality, NH+4-N content, was decreased by 41.0%. The other parameters had no significant change. Spatially, the LCI was mainly affected by landscape pattern, and positively correlated with the comprehensive water quality identification index. Our results implied that the spatial change of the landscape pattern in the channels connected with Taihu Lake could obviously affect water quality. In sum, the LCI was closely correlated with the water quality indicators NH+4-N and total N, the variation trend of the LCI was in accordance with that of the water quality, and the source-sink LCI could better reflect the generation and translocation of non-point source pollution.

Characteristics and environmental determinants of greenhouse gas emissions from Yudushan Reservoir during growth season.

2012, 31(02):  406-412. 

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Wetland can produce and store large amount of organic matters, playing a significant role in the global carbon and nitrogen cycles, and in particular, greenhouse gases (CO2, CH4 and N2O) fluxes. Most of the previous studies are focused on the greenhouse gas emissions from peat lands, lakes, and crop fields, but few are targeted on reservoirs, especially those located in temperate zone. In this study, three greenhouse gases (CO2, CH4, and N2O) fluxes and their environmental determinants at different locations (eulittoral zone, reservoir entrance, and shallow water zone) in Yudushan Reservoir of Beijing were measured by using static opaque chamber-GC technique during the growth season (May, August, and October) in 2009 and 2010. A great variation in the greenhouse gases (CO2, CH4， and N2O) fluxes was observed among the sampling locations, and this variation was affected by the combined effect of sampling location and sampling month. In May, the CO2 flux in the eulittoral zone reached the highest (664.31 mg·m-2·h-1), which was significantly higher than that at the reservoir entrance and in shallow water zone. In August, the CH4 and N2O fluxes in the eulittoral zone was the highest (0.87 mg·m-2·h-1 for CH4 and 3.05 mg·m-2·h-1 for N2O), but the fluxes of CO2, CH4 and N2O in the zone had somewhat decrease after the vegetations above the ground were removed. Pearson correlation analysis indicated that CO2 flux was significantly positively correlated with soil temperature and redox potential at 5 cm depth and water total nitrogen content but significantly negatively correlated with above-ground biomass and water pH, CH4 flux was significantly correlated with surface soil temperature, above-ground biomass, and water pH but negatively correlated with water total nitrogen and NH4+ contents, while N2O flux was significantly correlated with water
total nitrogen content but negatively correlated with water pH. By the mean value estimation method, it was deduced that the total greenhouse gas emissions in the eulittoral zone, reservoir entrance, and shallow water zone during growth season were 15960, 2160 and -70 kg·hm-2 for CO2, 20.04, -7.05 and 14.8 kg·hm-2 for CH4, and 83.42, 3.79 and -1.54 kg·hm-2 for N2O, respectively, suggesting that the eulittoral zone was the most important zone for the greenhouse gas emissions in the Yudushan Reservoir.

Application of land use model CLUE-S in the planning of central Liaoning urban agglomerations.

2012, 31(02):  413-420. 

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Land use model plays an important role in analyzing, simulating, and predicting landscape pattern and ecological process. Taking central Liaoning urban agglomerations as a case, this paper explored the application of land use model CLUE-S in the regional planning of urban agglomerations, and, based on the analysis of the landscape pattern and the driving factors of landscape change from 1998 to 2004, the model was validated. Three planning scenarios, i.e., historic trend, ecological protection, and urban planning from 2004 to 2024, were simulated. The simulated urban area in the urban planning scenario was compared with the planning of central Liaoning urban agglomerations, and the results showed that the simulated results of CLUE-S model were more realistic than the planning one, suggesting that CLUE-S model would be a powerful technical means and scientific support in regional planning, being able to predict and assess the planning consequence.

Impact of rapid urbanization on landscape structure and pattern in Nanjing east suburb.

2012, 31(02):  421-425. 

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The impact of urbanization on regional landscape is increasingly significant. How to harmonize the relationship between land exploitation and ecological protection becomes one of the most important and fundamental issues. Based on RS and GIS techniques, this paper studied the dynamic changes of landscape structure and pattern in the rapidly urbanized area, Xianlin New Town, of Nanjing. Significant changes of landscape structure had occurred in the study area from 2003 to 2009. The predominant landscape had gradually transformed from semi-natural landscape to man-made landscape. Cultivated land was dramatically impacted by human activities, and 556% of it was lost. The number of pond also reduced a lot, with a loss of 56.4%. The area of urban construction land was increased by 7.1% annually. With the rapid change in landscape structure, the landscape pattern also changed. The index of landscape diversity increased from 138 to 168, evenness index increased from 060 to 073, and connectivity index varied from 015 to 032.

Greenway network design of Great West River Pilot Area in Changsha City, Hunan Province of South-central China based on suitability analysis and GIS.

2012, 31(02):  426-432. 

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Greenway construction plays very important roles in improving urban form and protecting its ecological environment, being one of the hot points in ecological research. However, for most places in China, the present greenway’s planning methods cannot be popularized due to the defect of excessive subjectivity and the shortage of scientificity and rationality. In this paper, suitability analysis was adopted to study the urban greenway network design, taking the Great West River Pilot Area in Changsha City as the object and under the support of GIS. The suitability analysis includes five steps, i.e., 1) selection of evaluation factors and determination of evaluation criteria, 2) calculation of the factors weights, 3) assessment of site suitability, 4) assessment of accessibility, and 5) delineation of greenway networks. The Pilot Area is located in the west side of Changsha City, as a “Two-Oriented Society” (resource-conserving and environment-friendly society) demonstration area of the Changsha-Zhuzhou-Xiangtan Urban Agglomeration. The results showed that the greenway network design with the combination of GIS and suitability analysis could be used as a design method for greenway network construction in the future, due to its less demand on related data, simplified operation, scientific evaluation process, and well-defined results. Three greenway networks with integrated functions and their own characteristics in the Pilot Area were designed, which could improve the urban form of the Area and its environmental quality, and provide a reference for the greenway project design in similar regions of China in the future.

Ecological services value of forest ecosystem in eastern Qilian Mountains based on emergy theory.

2012, 31(02):  433-439. 

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By using emergy analysis theory and method, this paper analyzed the emergy flow and ecological value of the forest ecosystem in Haxi area in eastern part of Qilian Mountains’ northern slope. In the study area, the input energy flow of forest ecosystem was larger than the output energy flow, indicating that the energy was accumulating in the forest ecosystem. Through energy flow, low-quality energy transformed into high-quality energy, and the environment of the ecosystem was relatively safe. The total emergy of five ecological services, including organic matter production, water conservation, soil maintenance, CO2 fixation, and air purification was 9.35 ×1021 sej, and the total emergy monetary value was 7.77×108 US$. The emergy monetary value of water conservation and soil maintenance was apparently higher than that of other services. The monetary value of each service was in the order of water conservation > soil maintenance > air purification > organic matter production > CO2 fixation. Water conservation was the most important ecological service in the study area, and the proportion of the emergy monetary value of water conservation was 69.6%. Among different vegetations, shrub land had the largest value of water conservation, while arbor forest had the largest value of water conservation per unit area.

Evaluation on ecological services of urban green space in Guangzhou City of South China based on remote sensing.

2012, 31(02):  440-445. 

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Based on the TM image data and field observation data, and by using remote sensing quantitative inversion models, the land surface parameters affecting the ecological services of urban green space in Guangzhou City, e.g., leaf area index, vegetation index, soil moisture content, land surface albedo, and land surface temperature, were extracted. Each of these parameters was evaluated and graded by using Neural Network technology, and a multiple factor comprehensive evaluation of the urban ecosystem services in the City was conducted by fuzzy clustering. The results showed that the ecological services of the green space were weak. There was a great difference in the distribution of green space among each urban area, and the spatial arrangement was unreasonable. The area of the green space with the first degree ecological services was 2.1 km2, only accounted for 0.4% of the total, while the area of the green space with the second, third, and fourth degrees ecological services accounted for 2.4%, 5.0%, and 29%, respectively.

Factors affecting global forest soil N2O emission flux.

2012, 31(02):  446-452. 

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The role of forest ecosystem under global warming, especially the response of forest soil nitrogen (N) pool to increased atmospheric N deposition, has become one of the hotspots in global change study. Through investigating and systematizing published data, this paper analyzed the distribution patterns of forest soil N2O emission fluxes from 38 in situ observations at global scale in 1984-2009, and assessed the response of forest soil annual cumulative N2O flux to atmospheric N deposition and to the variations in water and heat conditions. In global scale, forest soil N2O flux was averagely 0.47 kg N·hm-2·a-1, and declined gradually from low to high latitude. As a complex ecological process, forest soil cumulative N2O flux was also significantly affected by mean annual temperature, annual precipitation, and soil properties. The temperature sensitivity index of soil N2O flux (Q10 value) in global forest ecosystem was about 1.5. Moreover, forest soil N2O flux increased significantly with increasing atmospheric N deposition. The
atmospheric N deposition could explain 53% of the variations in the forest soil N2O flux across different regions, while the soil pH, mean annual temperature, and atmospheric N deposition could explain 55% of the variations within regions.

Cysts of marine planktonic ciliates: A review. 

2012, 31(02):  453-459. 

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As one of the important components of microzooplankton, marine planktonic ciliates serve as a crucial link between microbial food web and classical food chain. Some planktonic ciliates in their life cycle can encyst, and can excyst when environment is favorable. The encystment and excystment cycle is very important to the planktonic population dynamics in water column. Though the vegetative stage of planktonic ciliates has been frequently studied, the resting phase is largely ignored. In China, we do not even begin research in this field. This paper reviewed the progress in cyst research, including cyst morphology, cyst abundance, environmental parameters of cyst formation, cyst development during excystment, and excystment in relation to environmental parameters, which could be helpful to promote the study of the cysts of marine planktonic ciliates in China.

Substrate amelioration and vegetation reconstruction in ecological remediation of abandoned mines: Research advances.

2012, 31(02):  460-467. 

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Mining industry contributes to economic growth, but inevitably causes environmental damage and produces large amount of wasteland. Therefore, ecological remediation of mine wasteland is an urgent task for the sustainable development of economy and society. This paper introduced the connotation of ecological remediation and reconstruction, and reviewed the research progress on the substrate amelioration, including surface soil cover, physical, chemical, and biological amelioration, and artificial substrate amelioration, and the vegetation reconstruction of mine land, including natural succession model of vegetation, selection of suitable plant species, and significance of vegetation remediation. The development trend of ecological remediation of mine wasteland in the future was also discussed.

Strategic thinking on modeling and simulation of complex ecosystems. 

2012, 31(02):  468-476. 

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An ecosystem could be regarded as a complex system with hierarchical architecture. Due to the lack of standardization and integration, the current modeling and simulation of complex ecosystems could not fit in with the further development of modern ecology. A primary reason for this is that very few reviews on modeling and simulation of complex ecosystems have been presented. In this regard, this paper proposes a general framework for modeling and simulation of complex ecosystems. Based on the framework, systems and system models are taken as two kinds of main agents, and the strategies for modeling and simulation of complex ecosystems are discussed in terms of two approaches-top-down system analysis and bottom-up model realization (i.e. system integration). It is intended to provide a useful guidance for further case studies on modeling and simulation of complex ecosystems.

On the connotation of tourism eco-compensation.

2012, 31(02):  477-482. 

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In view of the confusion in the understanding of tourism eco-compensation, this paper made a tentative analysis on the connotation of tourism eco-compensation. Firstly, based on the dual relationship between tourism industry and ecological compensation, two perspectives on the cognition of tourism eco-compensation, i.e., ‘theory of subject’ and ‘theory of pathway’, were put forward. Secondly, after analyzing the basic semanteme and category of tourism eco-compensation, a complete relation domain wherein stakeholders would interact was clarified, which included tri-compensation subjects and tri-compensation objects (nature and human, respectively), punishment for negative externality and encouragement for positive externality, and value-oriented compensation and material-oriented compensation. Finally, aiming at the confused usage of related concepts, the relationships of “eco-compensation of tourism resources”, “value compensation of tourism resources”, and “compensation for occupied land of tourism” with tourism eco-compensation were made clearly.

Polar region legal issues: A discussion.

2012, 31(02):  483-486. 

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Global warming makes the resource exploitation and utilization of Polar region be possible. However, due to the special status of Polar region in international laws, there are many debates in international communities about the relevant rights and interests of Polar region. These debates mainly manifested in two aspects, i.e., legal conflicts between international treaties, and legal conflicts between international and domestic laws. China has a great development space in the marine affairs of Polar region. Accordingly, the researches on the Polar region legal issues can provide corresponding legal bases and countermeasures to China in its dealing with the relevant international marine affairs in the future.

Instrument heating correction effect on estimation of ecosystem carbon and water fluxes.

2012, 31(02):  487-493. 

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Eddy covariance is widely applied in obtaining ecosystem carbon and water fluxes. However, in open-path eddy covariance system, the instrument may heat up the environment, and introduce uncertainties into the data. To scale the instrument heating effect, three typical
ecosystems in ChinaFLUX, i.e., Changbaishan temperate mixed forest (CBS), Haibei shrub meadow (HBGC), and Dinghushan subtropical evergreen broad-leaved forest (DHS), were selected, and the instrument heating correction effect on the estimation of the carbon and water fluxes was analyzed. Instrument heating correction had no significant effect on the ecosystem energy balance closure and water flux, but decreased the net ecosystem production (NEP) of CBS and HBGC during their non-growth season significantly, and led to a decrease in the annual sum NEP of the two ecosystems. However, no evidence was observed that heating correction affected the NEP of DHS. The decrement of NEP was strongly affected by annual mean air temperature. In CBS ecosystem, the NEP decreased by 7.7%-10.4%, much lower than that (76.6%-852%) in HBGC ecosystem. The significant decrease of NEP in HBGC ecosystem could be due to the remarkable change in NEP during night, which in return could increase the ecosystem’s respiration (RE). Therefore, it would be necessary to fully consider the effect of instrument heating correction on the accurate estimation of carbon budget in temperate ecosystems.

Principle, structure, and application of FARSITE fire behavior model.

2012, 31(02):  494-500. 

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Researchers and managers are increasingly interested in spatially explicit fire models that can simulate fire spread processes at large spatial and temporal scales for use in fire management, planning, and scientific analyses. Fire Area Simulator (FARSITE) is a spatially explicit model based on thermal physics, combustion science, and empirical theory, which integrates the existing sub-models of surface fire, crown fire, spot fire, and fire acceleration. By using GIS and RS data, FARSITE model can simulate fire spread at large spatial and temporal scales, and the simulated results can output in the form of maps, reflecting the instantaneous state of any fire behavior. This paper introduced the basic principles, structure, and operation mechanisms of FARSITE model, and applied it to simulate the fire spread in Fenglin National Nature Reserve, so as to provide reference for the development of fire management and fire behavior simulation model in China.

Ecological slope protection technique in managing Chongming Island river ways. 

2012, 31(02):  501-506. 

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Ecological slope protection technique is critical for mitigating riverbank erosion and protecting water quality in river ecosystems. Taking the ecological river demonstration project in Yingtung Village of Chongming Island as a case, this paper explored the practice and ecological effect of ecological slope protection technique with the aim of slope stabilization and ecological restoration. Our self-invented ecological slope protection technique was applied to the engineering practice, and a continuous ecological monitoring was conducted. After two years of the engineering practice, the mean riverbank shear strength at the sampling points at the middle of the river (A2) and at the entrance bridge of 〖JP2〗the Village (A4) was 620 and 63.5 kPa, respectively, far higher than that (37 kPa) at the original protection slope A1. The obvious increase of soil shear strength made the riverbank erosion mitigated sharply, and the riverbank structural stability enhanced. The water quality was improved due to plant purification. Along the flow direction, the total nitrogen content declined from 2.95 to 1.08 mg·L-1, with a decrement of 63.4%, and the ammonium content declined from 2.64 to 1.02 mg·L-1, with a decrement of 61.4%. In the meantime, the habitats of the riparian zone were under self-improvement, and the stability of the eco-riverbanks enhanced due to the high species diversity and multiple plant community structure.

Evaluation of a new-type seagrass seeding technique based on eelgrass seedling rate.

2012, 31(02):  507-512. 

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Clam seeding technique is a new type seagrass seeding technique, in which, seagrass seeds are attached to clams by glutinous rice paste, and buried in substratum with burrowing clams. To examine the effects of clams and glutinous rice paste on seagrass seedling rate, Ruditapes philippinarum and Zostera marina seeds were used as test objects, and 3 replicates of 5 treatments including directly broadcasting seeds (A1), directly burying seeds (A2), broadcasting paste-imbeded seeds (B1), burying paste-imbedded seeds (B2), and clam seeding (C) were installed, with 200 seagrass seeds for each in separate tanks in laboratory. The clam seeding technique was also evaluated in two quadrats installed in field. The results showed that glutinous rice paste had negative effects on the seagrass seedling rate, but clams promoted the ventilation in substratum, which mitigated the negative effects of glutinous rice paste and increased the seagrass seedling rate up to 23.2% in clam seeding. In field, the seagrass seedling rate in the two separated quardrats with clam seeding was 19.1% and 9.9%, respectively. The results indicated that the new technique would be an efficient and applicable seeding technique in seagrass bed establishment and restoration projects.