老爷岭多年冻土小流域春季冻融期径流溶解性有机碳变化特征

溶解性有机碳（DOC）的输移过程是流域碳循环中重要的组成部分,对全球碳循环产生重要影响。以大兴安岭多年冻土区的典型森林小流域-老爷岭流域为研究对象,获得2021年4月9日到6月30日冻融期降雨量、气温、土温等气象数据及逐日径流量、径流DOC浓度,计算了冻融循环期（4月9日-28日）和融化期（4月29日-6月30日）流域径流DOC的输出通量,揭示了径流DOC浓度及输出通量的影响因素。结果表明：（1）研究时段内,老爷岭流域径流DOC浓度变化范围为3.88-33.75 mg/L,流域上游的径流DOC浓度变化趋势与下游基本一致,DOC浓度随着温度的升高呈现下降趋势,4月份平均径流DOC浓度明显高于5、6月份。（2）研究时段内流域径流DOC总输出通量为3215.48 kg/km²,其中5月径流DOC输出通量高于4、6月份。径流量与径流DOC输出通量存在显著正相关关系（P<0.05）,是流域DOC输出通量的主导因素。（3）研究时段内流域DOC浓度与平均气温呈极显著负相关（R²=0.5048,P<0.001）;降水样品中的DOC浓度变化范围为1.06-9.42 mg/L,显著低于径流DOC浓度;土壤中DOC含量变化趋势与径流DOC变化趋势一致,0-10 cm、10-20 cm土壤平均DOC浓度范围为77.57-133.99 mg/L。（4）冻融循环期平均日径流DOC浓度（24.02 mg/L）显著（P<0.05）高于融化期（14.64 mg/L）,而融化期平均日DOC输出通量（48.02 kg/km²）是冻融循环期（9.52 kg/km²）的5倍。研究结果揭示了大兴安岭多年冻土小流域春季冻融期径流DOC的输移特征及其影响因素,对理解多年冻土区碳循环有重要意义。     

Land‐cover/use transitions in the binational Tijuana River watershed during a period of rapid industrialization

Question: How do differing social and economic systems affect the dynamics and trajectory of land cover / land use change on similar, neighbouring ecosystems in a time span when an economic industrialization program was enforced? Location: Tijuana River watershed, located on the border between Baja California, Mexico and California, United States. Methods: We quantified land use changes between 1970 and 1994 in the Tijuana River watershed. Using aerial photographs and geographic information systems, we elaborated land‐cover/use maps and calculated transition probability matrices to describe natural land‐cover changes at the landscape level on both sides of the border. Results: Land cover / land use transitions are mainly driven by urban development on both sides of the border, but exhibit different patterns in each country. The processes seem to be more complex in the Mexican part of the basin, where itinerant land use may revert induced grasslands and rain‐fed agriculture into natural communities, than on the US side, where the transition pathways are few and unidirectional. Conclusions: Despite the need for an integrated planning and management of binational basins and shared water resources, in practice, these goals may be hampered by different economic and social factors triggering land use change within each country.     

Dissolved and particulate nutrient flux from three adjacent agricultural watersheds: A five-year study

Fluxes of dissolved and particulate nitrogen (N) and phosphorus(P) from three adjacent watersheds were quantified with ahigh-resolution sampling program over a five-year period. The watershedsvary by an order of magnitude in area (12,875, 7968 and 1206 ha), and inall three watersheds intensive agriculture comprises > 90% ofland. Annual fluxes of dissolved N and P per unit watershed area (exportcoefficients) varied 2X among watersheds, and patterns were notdirectly related to watershed size. Over the five-year period, meanannual flux of soluble reactive P (SRP) was 0.583 kg P ·ha^–1 · yr^–1 from the smallestwatershed and 0.295 kg P · ha^–1 ·yr^–1 from the intermediate-sized watershed, which hadthe lowest SRP flux. Mean annual flux of nitrate was 20.53 kg N ·ha^–1 · yr^–1 in the smallestwatershed and 44.77 kg N · ha^–1 ·yr^–1 in the intermediate-sized watershed, which had thehighest nitrate flux. As a consequence, the export ratio of dissolvedinorganic N to SRP varied from 80 (molar) in the smallest watershed to335 in the intermediate-sized watershed. Because most N was exported asnitrate, differences among watersheds in total N flux were similar tothose for nitrate. Hence, the total N:P export ratio was 42(molar) for the smallest watershed and 109 for the intermediate-sizedwatershed. In contrast, there were no clear differences among watershedsin the export coefficients of particulate N, P, or carbon, even though> 50% of total P was exported as particulate P in allwatersheds. All nutrient fractions were exported at higher rates in wetyears than in dry years, but precipitation-driven variability in exportcoefficients was greater for particulate fractions than for dissolvedfractions.Examination of hydrological regimes showed that, for all nutrientfractions, most export occurred during stormflow. However, theproportion of nitrate flux exported as baseflow was much greater thanthe proportion of SRP flux exported as baseflow, for all threewatersheds (25–37% of nitrate exported as baseflow vs.3–13% of SRP exported as baseflow). In addition, baseflowcomprised a greater proportion of total discharge in theintermediate-sized watershed (43.7% of total discharge) than theother two watersheds (29.3 and 30.1%). Thus, higher nitrateexport coefficients in the intermediate-sized watershed may haveresulted from the greater contribution of baseflow in this watershed.Other factors potentially contributing to higher nitrate exportcoefficients in this watershed may be a thicker layer of loess soils anda lower proportion of riparian forest than the other watersheds. Theamong-watershed variability in SRP concentrations and exportcoefficients remains largely unexplained, and might represent theminimum expected variation among similar agriculturalwatersheds.     

利用SEDD模型模拟岷江上游小流域的年产沙量

以GIS为平台,建立了泥沙输移分布模型SEDD(sediment delivery distributed model),包括模拟流域年侵蚀量的修正通用水土流失方程RUSLE(revised universal soil loss equation)和模拟泥沙输移比SDR(sediment delivery ratio)的方程.利用该模型模拟了岷江上游黑水、镇江关流域的年侵蚀、产沙量及其空间分布特征.模拟结果表明:两个流域侵蚀强度以轻度和中度侵蚀为主,并伴有强度侵蚀;流域产沙量低,不到侵蚀总量的5%;泥沙输移比与流域产沙量的空间分布相似,均呈现在河流附近较高、其他区域接近零的格局;灌木林地和林地是主要的产沙源,两种类型的产沙量之和约占流域总产沙量的70%.     

黄土高塬沟壑区小流域土地利用变化及其生态效应分析

基于王东沟流域1994和2004年两期土地利用图,通过构建土地利用动态变化模型和区域生态环境指标,定量分析了王东沟流域1994--2004年土地利用时空变化特征,并以生态系统服务功能衡量了土地利用类型和土地利用变化类型的生态效应．结果表明,1994—2004年王东沟流域农地大幅度减少,草地和果园大量增加,林地和非生产地变化不大;变化速度依次为草地〉果园〉非生产地〉农地〉林地;土地利用变化类型多样,农地转出和林地转入是其主要类型;土地利用的空间迁移方向为农地和果园向西北方向迁移（塬区）,林地和草地向东南方向（沟壑区）迁移．1994--2004年土地利用变化带来了良好的生态效益,但不同土地类型和不同土地变化类型的生态效应不同,提高和降低生态系统服务功能的作用并存．农地减少对生态环境产生负面作用,林草和果园的增加改善了生态环境,提高了其生态服务价值;土地利用变化类型中,改善生态环境的主要是转为林地和果园的变化类型,降低生态系统服务功能的主要是林地转出类型和农地转为非生产地类型．     

红壤小流域坡地不同利用方式对土壤磷素流失的影响

以浙江德清县排溪冲小流域生态系统为实例,采用定位土芯Ｅｕ示踪和无界径流小区法研究了流域内坡地不同利用方式对土壤磷素流失的影响,结果表明：（１）坡地不同利用方式磷素流失差异明显,流失最严重提是竹园,其次是旱地作物和新建果园,再次是幼龄茶园,林地和未开发利用的荒草地磷素的流失较轻;（２）泥沙结合态磷（Ｐａｒｔｉｃｕｌａｔｅ ｐｈｏｓｐｈｏｒｕｓ,ＰＰ）随泥沙迁移流失是红壤坡地磷素流的的主要形式,６种利     

Impacts of past glaciation events on contemporary fish assemblages of the Ohio River basin

Aim We evaluated variation in fish assemblages on the basis of taxonomic composition and functional groups based on Pleistocene glacial boundaries in the Ohio River basin. We tested for the influence of habitat and hydrology on fish assemblage variation. Location Ohio River basin of North America, including the states of Ohio, Indiana and Illinois. Methods Fish collection sites were identified as Wisconsinan, pre‐Wisconsinan or unglaciated regions. Multivariate analyses, multi‐response permutation procedures, discriminant analysis and indicator species analyses were used to test whether taxonomic and functional assemblages were distinct among regions with varying glacial histories. Principal components analysis was used to identify habitat and water quality, as well as hydrological gradients that could be discerned by glacial region. Results We identified significant differences in both taxonomic and functional fish assemblage structure and habitat variation among regions that had different glaciation histories. The largest differences in taxonomic and functionally based fish communities were for unglaciated and pre‐Wisconsinan regions, while unglaciated and Wisconsinan regions were most similar. We correctly classified study regions in 71% and 60% of sites using taxonomy and functional analyses, respectively. Wisconsinan sites were characterized by Cyprinidae and Catostomidae assemblages with high abundances of tolerant fishes that tended to occur in habitats with reduced current velocity. Pre‐Wisconsinan sites were characterized by Cyprinidae, Catostomidae, Centrarchidae and Percidae families with increased abundances of intolerant fishes that tended to occur in habitats with coarser substrates and increased water velocity in streams of varying size. Unglaciated sites were characterized by Cyprinidae and Percidae families and were not closely associated with any habitat‐based functional group. Habitat in the unglaciated and pre‐Wisconsinan sites was significantly different from that in the Wisconsinan sites, which were characterized by increased channel structure and reduced stream size. Main conclusions Pleistocene glaciation events formed a lasting template of predictable regional differences in stream habitat and in the corresponding taxonomic and functional fish assemblage structures. While many factors impact the distribution of fishes, these results suggest that historical influences such as glaciation may be used to further explain the underlying mechanisms of spatial variation in fish assemblages.     

Proton production from nitrogen transformation drives stream export of base cations in acid-sensitive forested watersheds

The biogeochemical cycles of nitrogen (N) and base cations (BCs), (i.e., K⁺, Na⁺, Ca²⁺, and Mg²⁺), play critical roles in plant nutrition and ecosystem function. Empirical correlations between large experimental N fertilizer additions to forest ecosystems and increased BCs loss in stream water are well demonstrated, but the mechanisms driving this coupling remain poorly understood. We hypothesized that protons generated through N transformation (PPR_N)—quantified as the balance of NH₄⁺ (H⁺ source) and NO₃⁻ (H⁺ sink) in precipitation versus the stream output will impact BCs loss in acid-sensitive ecosystems. To test this hypothesis, we monitored precipitation input and stream export of inorganic N and BCs for three years in an acid-sensitive forested watershed in a granite area of subtropical China. We found the precipitation input of inorganic N (17.71 kg N ha⁻¹ year⁻¹ with 54% as NH₄⁺–N) was considerably higher than stream exported inorganic N (5.99 kg N ha⁻¹ year⁻¹ with 83% as NO₃⁻–N), making the watershed a net N sink. The stream export of BCs (151, 1518, 851, and 252 mol ha⁻¹ year⁻¹ for K⁺, Na⁺, Ca²⁺, and Mg²⁺, respectively) was positively correlated (r = 0.80, 0.90, 0.84, and 0.84 for K⁺, Na⁺, Ca²⁺, and Mg²⁺ on a monthly scale, respectively, P < 0.001, n = 36) with PPR_N (389 mol ha⁻¹ year⁻¹) over the three years, suggesting that PPR_N drives loss of BCs in the acid-sensitive ecosystem. A global meta-analysis of 15 watershed studies from non-calcareous ecosystems further supports this hypothesis by showing a similarly strong correlation between ∑BCs output and PPR_N (r = 0.89, P < 0.001, n = 15), in spite of the pronounced differences in environmental settings. Collectively, our results suggest that N transformations rather than anions (NO₃⁻ and/or SO₄²⁻) leaching specifically, are an important mediator of BCs loss in acid-senstive ecosystems. Our study provides the first definitive evidence that the chronic N deposition and subsequent transformation within the watershed drive stream export of BCs through proton production in acid-sensitive ecosystems, irrespective of their current relatively high N retention. Our findings suggest the N-transformation-based proton production can be used as an indicator of watershed outflow quality in the acid-sensitive ecosystems.     

黄土高原羊圈沟小流域土地利用时空变化的土壤有机碳效应

土地利用变化是影响土壤有机碳储量和分布变化的重要驱动因素,为进一步探讨土地利用变化对土壤有机碳的影响,根据土壤样点数据、土地利用类型图,分析了黄土丘陵沟壑区羊圈沟小流域2006—2011年土地利用变化及其对表层土壤有机碳密度和储量的影响,主要结论如下:(1)小流域土地利用发生较大变化,主要集中在乔木林地和灌木林地面积的增加,分别为39.697、46.404 hm2;以及草地面积的减少,为64.030 hm2;(2)土地利用方式的变化会导致土壤有机碳密度及储量的变化,其中转变用地类型的土壤有机碳储量增加587.25 kg,以荒草地转出类型增加的土壤表层有机碳储量最多,为441.64 kg;灌木林地转出类型减少的土壤表层有机碳储量最多,为-21.01 kg。草地-灌木林地、草地-乔木林地、坡耕地-草地、坡耕地-灌木林地、坡耕地-乔木林地、坡耕地-坝地、梯田-草地、梯田-灌木林地、梯田-乔木林地、梯田-坝地、坝地-草地、坝地-灌木林地、坝地-乔木林地等转换用地类型的表层土壤碳密度增加值高于保持用地类型碳密度的增加值,说明这些地类的转换有利于表层土壤有机碳储量的增加,即有利于表层土壤碳汇的形成;而其他地类转换造成了表层土壤的碳排放,应该引起足够的重视;(3)土壤固碳应着眼于长期效应,频繁的土地利用类型转化可能会降低土壤碳截流效果,黄土丘陵区植被重建的长期利用和保持更有利于土壤有机碳的积累。     

三峡库区兰陵溪流域土壤有机碳的垂直分布

土壤是陆地生态系统中最大的有机碳库,土壤有机碳(SOC)储量与深度分布模式受土地利用方式的影响,SOC储量与深度分布模式对全球气候变化有着重要意义。本文利用三峡库区典型流域SOC深度分布数据库,分析SOC的深度分布模式及其影响因素。结果表明:土地利用方式显著影响SOC的深度分布,0~20 cm土层内,林地、草地、灌木地和农地等4类土地利用方式,SOC密度平均为8.47、5.90、4.65和2.64 kg·m-2,差异极显著(P0.001);0~100 cm层为12.14、10.24、9.15和7.29 kg·m-2,差异显著(P0.05);林地、草地,灌木地、农地中,0~20 cm层SOC密度分别占0~100 cm层的69.80%、57.6%、50.8%和36.2%;SOC密度随深度的增加而迅速下降,其中林地下降速度最快,SOC深度分布相对较浅,草地和灌木地下降较慢,SOC分布相对较深;土地利用方式和海拔对表层(0~20 cm)SOC密度影响显著,对深层(40 cm)影响不显著;土壤机械组成对表层(0~20cm)SOC密度影响显著,对深层(40 cm)SOC密度影响更为显著;用0~100 cm层碳密度来描述区域SOC储量时,估计值偏低。若考虑0~150 cm层的SOC储量,研究流域SOC密度值将增加6.2%~16.5%。