THE FEATURES OF THE NATURAL RESOURCES AND THE RENOVATION STRATEGY OF POYANG LAKE

The present paper made an analysis of the features of the land, water,climatic and biological resources of Poyang Lake, the largest body of fresh water in china, whose water-covered area shows great variation between the flood and the dry seasons. It is a lake of transit water, the maximum recorded annual runoff, being 1,457× 108m3. Yet the great fluctuation of its runoff in different months and different years renders its function in storing and regulating the water of the Changjiang River limited and inopportune. On the other hand, the Poyang Lake is a high-valued district in sunshine hours, water evaporation and wind energy, it serves as a temperature moderator.Abundant in bioresources, the lake formed an integrated water ecosptem and a water-land alternated landbeach-grassy sandbar ecosystem. Finally, the author put forward the strategy of renovating poyang Lake by harnessing its water system; bringing the lake level under artificial control; harmonizing the relationship between Poyang Lake and the Changjiang River and making full use of the comprehensive advantages of the fake's resouces.

The importance of terrestrial carbon in supporting molluscs in the wetlands of Poyang Lake

Allochthonous organic matter plays an important role in nutrient cycling and energy mobilization in freshwater ecosystems. However, the subsidies of this carbon source in floodplain ecosystems have not yet well understood. We used a Bayesian mixing model and stable isotopes （613C and 815N） of primary food resources and dominant molluscs species, to estimate the relative importance of allochthonous carbon sources for consumers in a representative sub-lake of Poyang Lake during a prolonged dry season. Our study inferred that terrestrial-derived carbon from Carex spp. could be the primary contributor to snails and mussels in Dahuchi Lake. The mean percentage of allochthonous food resources accounted for 35%- 50% of the C incorporated by these consumers. Seston was another important energy sources for benthic consumers. However, during the winter and low water-level period, benthic algae and submerged vegetation contributed less carbon to benthic consumers. Our data highlighted the importance of terrestrial organic carbon to benthic consumers in the wetlands of Poyang Lake during the prolonged dry period. Further, our results provided a perspective that linkages between terrestrial and aquatic ecosystems might be facilitated by wintering geese via their droppings.

Characteristics of Photosynthetic Fluorescence of Dominant Submerged Plants in Nanjishan Wetland of Poyang Lake in Winter

Based on the investigation of the species and frequency of submerged plants in Nanjishan Wetland of Poyang Lake in the winter of 2013,chlorophyll contents and photosynthetic fluorescence characteristics of the dominant submerged plants were studied using chlorophyll fluorescence imaging method. The results indicate that the major submerged plants of Nanjishan Wetland in Poyang Lake in winter included Hydrilla verticillata,Vallisneria natans,Najas minor,Potamogeton pectinatus,Nymphoides peltatum,Myriophyllum verticillatum and so on,and the dominant species were mainly H. verticillata and V. natans in different submerged plant communities. The chlorophyll content of H. verticillata is higher than that of V.natans,and the photosynthesis intensity of H. verticillata is stronger than that of V. natans. The value of Ca / Cb of H. verticillata is not large,which shows that the light-harvesting capacity of H. verticillata＇s chlorophyll is considerable in different sampling sites. The highest value of QY-max of V.natans is up to 0. 732,while the lowest value is only 0. 465; the highest value of QY-max of H. verticillata is 0. 677,while the lowest value is 0. 556.All values of QY-max of the submerged plants were lower than 0. 8,which shows that the submerged plants in Nanjishan Wetland of Poyang Lake may be subjected to certain external stress,which indicates that the external stress might cause some damage for the PSII reaction centers.

Effects of Water-table Depth and Soil Moisture on Plant Biomass, Diversity, and Distribution at a Seasonally Flooded Wetland of Poyang Lake, China

Hydrological regime has been widely recognized as one of the major forces determining vegetation distribution in seasonally flooded wetland. Poyang Lake, the largest freshwater lake in China, has been encountering dramatic changes in hydrological conditions in last decade, which greatly influenced the wetland vegetations. To explore the relationships between hydrology and vegetation distri- bution, water-table depth, soil moisture, species composition, diversity and biomass were measured at a seasonally flooded wetland section at Wucheng National Nature Reserve. Three plant communities, Artemisia capillaris, Phragmites australis and Carex cineras- cens communities, were examined which are zonally distributed from upland to lakeshore with decreasing elevation. Canonical corre- spondence analysis （CCA）, spearmen correlation and logistic regression were adopted to analyze the relationships between vegetation characteristics and hydrological variables of water-table depth and soil moisture. Results show that significant hydrological gradient exist along the wetland transect. Water-table demonstrates a seasonal variation and is consistently deepest in A. capillaris community （ranging from q）.5 m above ground to ＋10.3 m below ground）, intermediate in P. australis community （-2.6 m to ＋7.8 m） and shallow- est in C. cinerascens community （-4.5 m to ＋6.1 m）. Soil moisture is lowest and most variable in A. capillaris community, highest and least variable in P. australis community, and intermediate and moderate variable in C. cinerascens community. The CCA ordination indicated that variables of water-table depth and soil moisture are strongly related to community distribution, which explained 81.7% of the vegetation variations. Species diversity indices are significantly positively correlated with soil moisture and negatively correlated with moisture variability, while above- and belowground biomass are positively correlated with moisture. Above- and belowground biomass present Gaussian models along the gradient of average water-table depth in growing season, while species diversity indices show bimodal patterns. The optimal average water-table depths for above- and belowground biomass are 0.8 m and 0.5 m, respectively, and are 2.2 m and 2.4 m for species richness and Shannon-Wiener indices, respectively. Outcomes of this work improved the under- standings of the relationship between hydrology and vegetation.

Wetland vegetation biomass estimation and mapping from Landsat ETM data: a case study of Poyang Lake

Poyang Lake is the largest freshwater lake in China. This paper conducted a digital and rapid investigation of the lake’s wetland vegetation biomass using Landsat ETM data acquired on April 16, 2000. First, utilizing the false color composite derived from the ETM data as one of the main references, the authors designed a reasonable sampling route for field measurement of the biomass, and carried it out on April 18–28, 2000. Then after both the sampling data and the ETM data were geometrically corrected to an equal-area projection of Albers, linear relationships among the sampling data and some transformed data derived from the ETM data and the ETM 4 were calculated. The results show that the sampling data is best relative to the band 4 data with a high correlation coefficient of 0.86, followed by the DVI and NDVI data with 0.83 and 0.80 respectively. Therefore, a linear regression model, which was based on the field data and band 4 data, was used to estimate the total biomass of entire Poyang Lake, and then the map of the biomass distribution was compiled.

Population sizes and group characteristics of Siberian Crane(Leucogeranus leucogeranus) and Hooded Crane(Grus monacha) in Poyang Lake Wetland

Both the Siberian Crane(Leucogeranus leucogeranus) and Hooded Crane(Grus monacha) have limited population sizes and are considered endangered by domestic Chinese and international agencies.To document the current size of their respective populations and characterize their groups,between October 2012 and April 2013 we undertook fieldwork at four nature reserve areas within the Poyang Lake wetlands.We divided Poyanghu National Nature Reserve(PYH) into the Wucheng(PWC) and Hengfeng areas(PHF),because each are each located in different counties.Our fieldwork showed that the Siberian Crane occurred mainly in PYH(364 in the PHF,158 in the PWC) and the Nanjishan Wetland National Nature Reserve(NJS,with 200 individuals).The Hooded Crane was mainly distributed in PYH(302 in the PHF and 154 in the PWC).Family groups accounted for more than 50% of the total number of groups among both species,with Hooded Cranes forming more family groups than Siberian Cranes.Typically,these groups were formed of two adults with one offspring(Siberian Crane),and two adults with two offspring(Hooded Crane),with the mean family group size of the Siberian Crane and Hooded Crane being respectively 2.65±0.53(n=43) and 3.09±0.86(n=47) individuals per group.The mean collective group size of the Siberian Crane and Hooded Crane included 28.09±24.94(n=23) and 28.94±27.97(n=16) individuals per group,respectively,with the proportion of juveniles among Hooded Cranes being more than double that seen among the Siberian Cranes.

Legal System for China's Forest Resource Protection:A Case Study of Poyang Lake Eco-economic Zone

Taking Poyang Lake Eco-economic Zone as an example,we analyzed existing problems in China'forest resource protection from the perspective of legal system.The problems include unclear property right system of forest resource,imperfect compensation mechanism for forest ecology,forest cutting quota scheme not resolutely put into practice,legal supervision of forest protection not implemented,and lack of integration in forest protection laws.Based on these problems,we put forward countermeasures and suggestions:establish clear forest resource property system;improve ecological benefit compensation mechanism in legal form;strictly implement forest cutting quota scheme;strengthen legal supervision of forest protection;and keep legal system integral for forest resource protection.

Impact of Accumulated Temperature on Wetland Vegetation Area in Poyang Lake

Accumulated temperature,which is now widely used in agronomy,is an important ecological factor to the growth of plants,but few relative studies have been found on the vegetation area of floodplain grasslands in Poyang Lake.This research used the classification and regression tree(CART)to classify normalized vegetation area index derived from MODIS LAI(Moderate Resolution Imaging Spectroradiometer Leaf Area Index)images from 2008 to 2014,according to different climate indexes,such as mean daily air temperature(n),accumulated temperature(jw),daily maximum temperature(g),daily minimum temperature(d),accumulative precipitation(j),water level(s)and average water level for 20 days preceding(a).The results showed that:(1)The accumulated temperature and the 20-day average WL(water level)were found to have the greatest impact on variation in wetland vegetation area,and they both dominated the classification process twice;(2)Two classification thresholds of accumulated temperature were 790°C and 1784°C,approximately corresponding to the beginning of April and midMay;(3)790°C could also be used as a threshold to select remote sensing images to analysis the annual variability of vegetation,i.e.while accumulated temperature is lower than 790°C,remote sensing images of similar accumulated temperature rather than similar date should be selected from different years for comparison.We also found that,effects of different hydrological factors on area of floodplain grasslands showed stage characteristics:(1)From January to March,water level changes slowly with less rainfall,as a result,the 20-day average WL which can interpret the hydrologic characteristics smoothly showed significant importance in this stage;(2)While entering April,intense rainfall make accumulative precipitation to be the dominating factor of classification;(3)From late April to mid-May,in condition of accumulative precipitation higher than 405 mm,daily water level is of most importance,because to the flood recession process as well as rapid water level fluctuations.

Investigation on Wetland Resources of Bashan Lake in Chongqing Municipality

Based on the investigation on the wetland resources of Bashan Lake in Chongqing, the existing problems in the protection and utilization of Bashan Lake wetland and Chongqing Bashan National Wetland Park were analyzed. Specific suggestions were put forward, which provided basic references for the protection of Bashan Lake wetland and construction of Chongqing Bashan Lake National Wetland Park.

Effects of diet shift on the gut microbiota of the critically endangered Siberian Crane

Wetlands worldwide have suffered from serious degradation and transformation,leading to waterbirds increasingly dependent on agricultural fields for feeding.Although gut microbiota is an essential component of host health,the impacts of agricultural feeding on gut microbial community and pathogen transmission remain poorly understood.To fill this knowledge gap,we used 16S rRNA sequencing to characterize the fecal bacterial community of the Siberian Crane(Grus leucogeranus),a Critically Endangered species,that recently has shifted its foraging from largely Vallisneria tubers in Poyang Lake natural wetlands to crops(i.e.,rice seeds and lotus rhizomes) in agricultural fields.We compared the bacterial communities between tuber foraging cranes and crop foraging cranes.Our results indicate that diet shift greatly modified the gut microbiota diversity,composition and function.Crop foraging cranes had higher microbiota diversity than tuber foraging cranes.The alteration in microbiota composition and function were correlated with change in food nutrition.Tuber(i.e.,high in fiber)foraging cranes were enriched in Clostridiaceae with fiber digestion ability,and crop(i.e.,high in carbohydrate)foraging cranes were enriched in bacterial taxa and functions related to carbohydrate metabolism.The flexibility of gut microbiota might enhance Siberian Cranes’ ability to adapt to novel diet and environment.However,many enriched families in crop foraging cranes were pathogenic bacteria,which might increase the susceptibility of cranes to pathogenic infection.Special caution should be taken to agricultural feeding waterbirds in Asia,where the widespread poultry-keeping in over-harvested rice fields might increase the transmission probability of pathogenetic bacteria among wild birds,domestic poultry and humans.

施氮和增温对鄱阳湖灰化薹草(Carex cinerascens Kukenth.)湿地秋草生长期氧化亚氮排放的影响

湿地是地球上十分重要的氮库,而且对大气氮沉降增加、气候变暖等全球变化响应非常敏感。目前关于湿地氧化亚氮(N_(2)O)的研究还存在较大的区域不均衡性,湿地N_(2)O排放对全球变化的响应也具有很大的不确定性。因此,本研究通过在鄱阳湖灰化薹草(Carex cinerascens Kukenth.)湿地开展N_(2)O通量原位监测及全球变化模拟实验,以揭示鄱阳湖灰化薹草湿地N_(2)O排放变化特征及其对施氮和增温的响应关系。结果表明,鄱阳湖灰化薹草湿地总体上是N_(2)O弱源,平均N_(2)O通量为(5.77±1.45)μg/(m^(2)·h)。施氮对鄱阳湖灰化薹草湿地N_(2)O通量有显著影响,相对于不施氮,施氮可显著提升2.7倍的N_(2)O排放通量。增温及其与施氮的交互作用对N_(2)O通量的影响不显著。鄱阳湖灰化薹草湿地N_(2)O排放过程主要由湿地植物调节,而与空气温度、土壤温度、土壤水分等非生物因素无显著相关关系。研究结果有利于深入认识全球变化与湖泊湿地N_(2)O排放的互馈作用,并为评估全球变化背景下湖泊湿地N_(2)O收支平衡提供重要支撑;未来还需要加强多因子交互作用研究并开展长期连续监测,从而为阐明湿地氮循环对全球变化的响应机制和构建气候预测模型提供验证数据和理论依据。

Integrating Wintering Waterbird Movements with Earth Observation Data of Wetland Dynamics

Wetlands are among the most productive and essential ecosystems on earth,but they are also highly sensitive and vulnerable to climate change and human disturbance.One of the current scientific challenges is to integrate high-resolution remote sensing data of wetlands with wildlife movements,a task we achieve here for dynamic waterbird movements.We demonstrate that the White-naped cranes Antigone vipio wintering at Poyang Lake wetlands,southeast of China,mainly used the habitats created by the dramatic hydrological variations,i.e.seasonal water level fluctuation.Our data suggest that White-naped cranes tend to follow the water level recession process,keeping close to the boundary of water patches at most of the time.We also highlight the benefits of interdisciplinary approaches to gain a better understanding of wetland ecosystem complexity.

鄱阳湖湿地溶解性有机质的光化学属性对水体光活性中间体(PPRIs)季节性变化的影响

湿地的水文和水化学在时空尺度上会呈现显著差异,进而会引发光化学反应的变化,光活性中间体(PPRIs)是水体间接光反应的产物,具有极强的氧化性,对水环境中有机物和污染物的归驱具有重要的影响,因此迫切需要探究湿地中PPRIs的产生过程。本研究通过捕获剂法监测了鄱阳湖湿地4个季节水体中3种PPRIs(^(1)O_(2)、·OH及^(3)CDOM^(*))的产生速率和稳态浓度的变化,并通过紫外吸收光谱、三维荧光光谱、以及傅立叶变换离子回旋共振质谱等技术对水体中可溶性有机质(DOM)组分的化学特征进行分析,揭示了鄱阳湖湿地不同季节水体中的DOM的光化学反应特性及与PPRIs产生的相关性。结果发现:鄱阳湖夏季和秋季水体的pH值、溶解有机碳(DOC)浓度较高,相反,硝酸盐、亚硝酸盐浓度在夏季和秋季较低。夏季和秋季的DOM中芳香族化合物丰度较高,并且木质素丰度明显高于冬季和春季。不同季节鄱阳湖水体有色可溶性有机物产生能力依次为秋季>夏季>冬季>春季。夏季和秋季水体中^(1)O_(2)和·OH产生速率和稳态浓度显著高于春季和冬季水体。pH、DOC、E2/E3、脂类、蛋白类及木质素类与PPRIs产生速率展现出了良好的正相关关系,尤其是其中的DOC与木质素类组分;另外在三维荧光指标结果中,荧光指数(FI)和新鲜度指数(β/α)与PPRIs呈现负相关关系,证明FI值越低即DOM陆源性越高、非新生DOM比例越高,则PPRIs产生速率越高。综上,PPRIs的光化学产生与植物源DOM密切相关。与春季和冬季相比,夏季和秋季鄱阳湖水体的有机质高,而其中DOM组分中芳香族化合物丰度较高,主要来自陆生植物和土壤有机质,其有机质的腐殖化水平较高,而在春季和冬季水体有机质主要来自湖泊本身和微生物产生的有机质,属于内源。淹水植物残体降解过程释放的有机组分,对夏、秋季DOM的来源和组成有着极易被忽视的影响和作用,而其中光化学活性较强的有机组分如木质素是造成其PPRIs产率更高的主要原因。

鄱阳湖禁捕前后鳜(Siniperca chuatsi)生长特性及种群参数研究

【目的】旨在研究禁捕对鄱阳湖鳜(Siniperca chuatsi)生长特性和种群参数的影响,了解鄱阳湖鳜种群恢复情况,为鄱阳湖鳜资源的保护和开发利用,以及评估禁捕效果提供数据支撑。【方法】使用FiSATⅡ软件分析禁捕前(2016—2019年)和禁捕后(2020—2022年)湖区6个采样区域的鳜资源调查数据,评估鄱阳湖鳜资源状态和生长特征。【结果】鳜平均体长和体质量呈逐年增长的趋势,且禁捕后鳜平均体长[(316.20±95.55)mm]和体质量[(1104.80±927.90)g]均显著高于(P<0.05)禁捕前的鳜平均体长[(213.22±63.90)mm]和体质量[(294.07±272.47)g],禁捕后鳜体长大于200 mm或体质量大于250 g的个体数量占比增加,体长变动系数的平均值(SVL=29.14±3.64)显著小于(P<0.05)禁捕前(SVL=35.01±3.46);禁捕后鳜生长参数平均值(K=0.49±0.15、b=3.1651±0.0892)大于禁捕前(K=0.41±0.10;b=3.0715±0.2276),鳜渐进体长[L_(∞)=(581.0±84.9)mm]、渐进体质量[W∞=(6270.77±3088.52)g]和生长性能指数(φ’=5.198±0.233)的平均值均大于禁捕前[L_(∞)=(420.0±61.8)mm;W∞=(2188.44±941.19)g;φ’=(4.846±0.221)];鳜的生长速度和生长加速度在禁捕后呈现逐年增加的趋势;禁捕后鳜平均拐点年龄(2.25龄)相比于禁捕前(2.48龄)降低,但对应平均拐点体长[L_(i)=(278.61±101.30)mm]和拐点体质量[W_(i)=(1269.01±482.86)g]相比于禁捕前[L_(i)=(242.20±70.69)mm;W_(i)=(460.28±403.67)g]有所增加;禁捕后平均捕捞死亡率(u=0.29±0.01)显著小于(P<0.05)禁捕前(u=0.35±0.03),各采样点鳜单位捕捞努力量渔获量(CPUE)也大于禁捕前。【结论】禁捕可以改善鄱阳湖鳜资源小型化的趋势,提高鳜的种群数量,对恢复鳜资源具有一定的积极作用。

鄱阳湖湿地碟形湖-河流水稳定同位素变化特征及其指示意义

为深入认识鄱阳湖湿地区域水循环过程,于2019年112月在鄱阳湖国家级自然保护区对降水、河流水、主要碟形湖水进行系统采集,综合分析碟形湖-河流水稳定同位素的动态变化特征及其指示意义。结果表明,鄱阳湖湿地修河和赣江的同位素组成具有明显的季节性变化规律,4月河水同位素最为富集,57月逐渐贫化,之后呈现出不断富集的变化趋势,整体上与降水同位素的时间变化特性相似。在空间分布上,各段河水的同位素组成均具有相对稳定的沿程分布特征,赣江在修河汇入点上、下游的同位素特性在大多数月份没有呈现出明显变化。碟形湖水同位素的年内变化范围比河水大,并且相对富集。主要碟形湖水的δ2 H-δ18 O关系接近当地大气降水线,具有更小的蒸发线斜率以及系统性偏离的特征,反映碟形湖主要受到当地降水补给,经历了一定程度的蒸发作用。基于指数模型方法估算修河和赣江水体的平均滞留时间(mean residence time,MRT)分别为1.54和0.81年,赣江较短的MRT表明鄱阳湖流域具有不同水体组分相互快速转化的水力条件,修河上游柘林水库的调蓄作用导致其MRT明显大于赣江。通过假定碟形湖水的蒸发过程遵循瑞利分馏模型,全年的同位素监测结果揭示蚌湖、沙湖、大湖池的年平均蒸发损失量分别为15.5%、15.0%、14.1%,不同碟形湖之间蒸发程度的差异可能与地形、植被和水动力条件等因素的综合影响有关。

鄱阳湖双退区受损湿地土壤氮素空间分布特征及影响因素

【目的】土壤氮素是湿地营养水平的重要指标,研究鄱阳湖双退区受损湿地土壤氮素空间分布特征及其影响因素,为开展鄱阳湖受损湿地植被生态恢复与重建提供科学依据。【方法】在鄱阳湖退田还湖区中的双退区选择位于江西省都昌县多宝乡的马影湖湿地4类受损湿地土壤,分别为沼泽土、草甸土、草甸沼泽土和次生草甸沼泽土,研究0~20 cm(表层土)、20~40 cm(中层土)和40~60 cm(深层土)3个土壤剖面的全氮(TN)、硝态氮(NO_(3)^(-)-N)和氨态氮(NH_(4)^(+)-N)的空间分布特征,利用聚类推进树算法量化环境因子对氮素的相对贡献,利用Pearson相关性分析氮素与环境因子的关系、利用结构方程模型分析了环境因子对氮素的影响路径。【结果】除沼泽土NH_(4)^(+)-N以中层土最高及次生草甸沼泽土土壤TN、NO_(3)^(-)-N、NH_(4)^(+)-N分别以中层土和深层土最高外,其余土壤类型皆以表层(0~20 cm)土壤氮素含量最高,分别为TN(0.35±0.03)g/kg、NH_(4)^(+)-N(4.02±0.38)mg/kg和NO_(3)^(-)-N(4.84±0.53)mg/kg。土层深度、有效磷(AP)对氮素分布和积累具有重要影响,pH通过影响土壤有机碳(SOC)、AP、有效钾(AK)间接影响到氮素,阳离子交换量(CEC)通过影响SOC间接影响到氮素。【结论】与鄱阳湖天然湿地相比,区内4类受损湿地土壤氮素含量均处于极低水平,各氮素最高值多集中在土壤表层,其中TN以草甸土含量最高也最易淋失,其次为草甸沼泽土、次生草甸沼泽土,沼泽土最少且最易被流水冲洗,氮素的积累和分布受土层深度、AP、pH、CEC等影响较大。

赣北山区草地植物群落及其影响因子

为研究江西省草地资源状况并探讨其影响因素,在赣北山区鄱阳湖流域设置了61个2 m×2 m的草地群落样地,包含废弃农田、山坡草地和杂草地3种样地类型。分析不同类型样地之间物种组成差异,并在物种和群落水平上分别探究了植物生态化学计量特征及其环境影响因素。结果表明:1)赣北山区鄱阳湖流域内草地植物41科93属111种。草地植物群落组成相对简单,不同生境条件下群落物种组成差异明显。2)3种样地的土壤总碳、总氮和总磷含量差异不显著(P>0.05),但山坡草地土壤总碳和土壤总氮含量较低,而废弃农田土壤总磷含量较高。3)植物物种和群落两个水平上,3种样地的植物N、P元素含量差异不显著(P>0.05),但山坡草地植物碳含量在个体和群落水平都显著高于杂草地,而废弃农田植物碳含量则在个体水平显著高于杂草地。4)在物种和群落水平上,土壤总氮和总磷含量均是植物生态化学计量特征的主要影响因子。综上,本研究对江西北部草地资源状况的调查,为该区域草地资源保护及恢复提供了数据支持和理论依据。

鄱阳湖湿地剖面土壤碳氮磷化学计量比沿高程梯度的变化特征

深入研究土壤碳氮磷化学计量特征有助于判断土壤营养状况以及养分间的耦合关系。为探究湿地剖面尺度的土壤化学计量特征分布规律及调控机制,在鄱阳湖南矶湿地国家级自然保护区内,沿高程设置高滩、中滩、低滩和泥滩4个梯度采集土壤样品,测定了不同高程0~100cm剖面土壤的理化性状及碳氮磷化学计量比。结果表明:鄱阳湖南矶湿地国家级自然保护区内不同高程0~100 cm剖面土壤有机碳(SOC)、全氮(TN)、全磷(TP)的平均含量在春季分别为(11.38±0.73)(1.43±0.12)和(0.54±0.03)g/kg,在秋季分别为(12.79±0.55)(1.13±0.03)和(0.40±0.01)g/kg,春秋两季0~10 cm深度的SOC、TP含量随高程的降低而减少,而两季0~10 cm深度的TN含量随高程的降低先增加后减少,两季SOC、TN和TP含量的剖面分布均未随高程的变化而改变。春季和秋季不同高程0~100 cm剖面土壤C/N/P分别为21.07∶2.64∶1和31.58∶2.77∶1,随高程的降低,仅两季0~10 cm深度的C/P和N/P呈上升趋势;而春季70~100 cm深度和秋季10~50 cm深度的C/N,以及春秋两季70~100 cm深度的C/P和50~70 cm深度的N/P均呈下降趋势。冗余分析和结构方程模型表明,SOC、TN、TP、pH和土壤水分(SM)是影响鄱阳湖湿地土壤碳氮磷化学计量比沿高程变化的主要因子,高程、季节、土壤深度通过改变SM和pH进而驱动SOC、TN、TP含量发生变化来调控碳氮磷化学计量比。研究显示,在气候持续暖干化背景下,鄱阳湖湿地不同土壤深度的养分限制状况会存在差异化转变,即表层土壤N的限制程度会加重而深层土壤N的限制会得到缓解。

鄱阳湖典型洲滩湿地土壤有机碳分解速率及温度敏感性

土壤有机碳分解的温度敏感性(Q_(10))是预测生态系统碳循环对全球气候变化的关键参数。全球湿地水文节律正在迅速变化,然而淹水差异对湿地土壤Q_(10)的影响还较少受到关注。在淹水差异梯度上,土壤有机碳质量对Q_(10)的调控机制也未明确。以鄱阳湖的东湖洲滩湿地为研究对象,在淹水时长差异诱导形成的3个植被群落样带(泥滩带、苔草带和芦苇带)各采集深度为0~10、10~20和20~30 cm的土壤,在实验室内测定不同温度(10、15、20、25、30℃)下各植被带3个深度土壤有机碳的分解速率,运用指数方程拟合Q_(10),探讨淹水时长梯度上土壤有机碳分解速率和Q_(10)的变化规律。运用傅里叶变换红外光谱技术(FTIR)测定土壤有机物的官能团结构,结合土壤有机碳、可溶性有机碳和微生物碳等有机碳组分含量,明确土壤有机碳质量对Q10的影响机制。结果表明,在10、15、20、25、30℃的温度下,土壤有机碳分解速率的平均值分别为19.19、31.00、51.67、77.28和109.32μg/(d·g)。各个植被带的土壤有机碳分解速率均随着土壤深度的增加而显著降低。然而,在3条植被带之间,只有0~10 cm的土壤有机碳分解速率存在显著差异(P=0.030),表现为芦苇带>苔草带>泥滩带。土壤Q_(10)的平均值为2.48,没有受到植被带和土壤深度的显著影响。FTIR数据显示,随着土壤深度和淹水时长的增加,洲滩湿地易分解的脂肪类有机物比例逐渐下降,但难分解的芳香类有机物比例逐渐升高。相关分析和结构方程模型结果表明,土壤有机碳分解速率的主要影响因素为含水量、微生物碳含量、pH和营养盐含量等。土壤有机物官能团结构、pH和总氮等因素对土壤Q_(10)有显著影响。表层土壤Q_(10)与脂肪类有机物含量呈正相关,与芳香类有机物含量呈负相关。

三峡工程运行背景下洞庭湖及鄱阳湖湿地类型动态变化规律

洞庭湖、鄱阳湖湿地是长江中下游的两个天然通江湖泊湿地,具有重要的生态服务功能。总结三峡工程运行背景下两湖枯水期湿地类型动态变化规律及两湖水文情势变化规律,并分析两湖水文情势的改变对两湖湿地类型动态变化的影响。结果表明:两湖区域湿地类型及格局发生明显变化,2003-2009年水域及泥沙滩地面积呈减少趋势,植被呈扩张趋势,2009年后水域面积开始增加;三峡工程运行后两湖区域水文情势变化趋势相同,均为入湖水量、沙量减少,泥沙淤积明显趋缓,湖区枯水期水位下降;两湖水文情势的改变对两湖区域湿地类型及格局产生影响,2003年三峡工程首次实验性蓄水使两湖湖区枯水期水位显著下降,造成两湖区域水域面积的减少及洲滩暴露,2009年中小洪水调度后枯水期水位开始回升,水域面积呈增长趋势,对两湖区域越冬水禽生境造成较大影响。分析结果为三峡工程运行背景下两湖湿地的保护和生态恢复提供了理论基础。