Application of a coupled ecosystem-chemical equilibrium model, DayCent-Chem, to stream and soil chemistry in a Rocky Mountain watershed

Atmospheric deposition of sulfur and nitrogen species have the potential to acidify terrestrial and aquatic ecosystems, but nitrate and ammonium are also critical nutrients for plant and microbial productivity. Both the ecological response and the hydrochemical response to atmospheric deposition are of interest to regulatory and land management agencies. We developed a non-spatial biogeochemical model to simulate soil and surface water chemistry by linking the daily version of the CENTURY ecosystem model (DayCent) with a low temperature aqueous geochemical model, PHREEQC. The coupled model, DayCent-Chem, simulates the daily dynamics of plant production, soil organic matter, cation exchange, mineral weathering, elution, stream discharge, and solute concentrations in soil water and stream flow. By aerially weighting the contributions of separate bedrock/talus and tundra simulations, the model was able to replicate the measured seasonal and annual stream chemistry for most solutes for Andrews Creek in Loch Vale watershed, Rocky Mountain National Park. Simulated soil chemistry, net primary production, live biomass, and soil organic matter for forest and tundra matched well with measurements. This model is appropriate for accurately describing ecosystem and surface water chemical response to atmospheric deposition and climate change.     

围栏封育对巴音布鲁克草原土壤理化性质的影响

为明确长期围栏封育对新疆亚高山草原土壤理化性质的影响,本研究以巴音布鲁克草原围封26年的高寒草甸、高寒草甸草原和高寒草原为研究对象,对三种类型草地围栏内外土壤理化性质进行对比分析,结果表明:(1)高寒草甸和高寒草原围栏内表层土壤饱和含水量、田间持水量和土壤含水量均高于围栏外样地,而土壤容重均低于围栏外,其中高寒草甸围栏内外的田间持水量、土壤含水量和土壤容重的差异达到显著水平;(2)高寒草甸围栏内表层土壤有机质含量显著高于围栏外,全氮则显著低于围栏外;三种类型草地围栏内表层土壤全磷含量均低于围栏外;(3)相关性分析表明,土壤含水量高的草地,其饱和含水量和田间持水量也较高,土壤容重较小;土壤容重高的草地其有机质含量较低;速效钾含量高的草地,其全磷含量也较高。围栏封育有利于草地土壤理化性质的恢复,但长时间围封会降低土壤磷素含量,需要通过施肥等管理措施补充以促进草地生态系统保持良性状态,本研究对草地土壤质量调控和退化草地恢复研究具有参考意义。     

川西亚高山、高山森林土壤微生物生物量和酶活性动态特征

为深入了解川西亚高山/高山森林冬季生态学过程,于2008年11月─2009年10月,在土壤冻结初期、冻结期和融化期及植被生长季节,研究了不同海拔岷江冷杉林（Abies faxoniana）土壤微生物生物量和酶活性动态。各海拔森林土壤在冬季维持着较高的微生物生物量含量和酶活性,并随土壤冻融过程不断变化。土壤有机层和矿质土壤层冬季微生物生物量碳和氮含量及转化酶和尿酶活性均表现出受冻结初期土壤冻融循环影响显著降低,在冻结期变化不明显,在融化期急剧增加至融化后显著降低的趋势,且土壤有机层微生物生物量含量和酶活性在融化期具有一个明显的年高峰值。海拔变化显著影响了土壤酶活性,但对土壤微生物生物量不显著。土壤温度与土壤微生物生物量含量相关显著。这表明季节性冻融期是土壤生态过程的重要时期,土壤冻融格局显著影响川西亚高山/高山森林土壤微生物生物量和酶活性动态。     

Effects of Recreational Impacts on Soil Microbial Communities

/ The functional diversity of soil microbial communities in heavilyimpacted subalpine campsites and adjacent undisturbed areas was comparedusing the Biolog method of carbon utilization profiles. Principal componentsanalysis of patterns and level of microbial activity indicate that microbialcommunities differentiate in response to disturbance in the top 6 cm of soil,while below 6 cm there were no recognizable differences between disturbed andundisturbed soil communities. Analysis of the factors that differentiate theupper microbial communities between disturbed and undisturbed sites revealedthat the percent of total carbon sources utilized was significantly less inthe disturbed (54%) than in undisturbed areas (95%). Carbonsubstrates important in the discrimination between soil communities includeplant, invertebrate, and microbial derivatives that could not be metabolizedby microbial communities from disturbed sites. Comparisons of totalculturable actinomycetes, bacteria, and fungi reveal no difference in overallnumber of colony forming units (CFU) on disturbed and undisturbed sites, buta marked decrease in actinomycetes on disturbed sites. Biolog andspread-plate data combined indicate a shift in the structure and function ofthe microbial community in campsite soils, which may be a useful indicator ofsoil community disturbance.KEY WORDS: Microbial functional diversity; Anthropogenic disturbance;Recreational impacts; Carbon source profile; Subalpine     

Effects of herbage removal on productivity of selected high-sierra meadow community types

We investigated the effects of herbage removal on three subalpine meadow plant communities in the Rock Creek drainage of Sequoia National Park, California, USA. In the xericCarex exserta Mkze. (short-hair sedge) type, annual aboveground productivity averaged 19 g/m² in control plots (clipped once after plant senescence in late September) over a five-year period. Annual aboveground productivity was enhanced about 30%–35% when plots in this community type were clipped more frequently (i.e., additional herbage removal in the early, mid, and late seasons) during each of four treatment years but was reduced by 13%–19% during a fifth (recovery) year in which all but late September clipping was suspended. In a moderately mesicEleocharis pauciflora (Lightf.) Link. (few-flowered spike rush)-Calamagrostis breweri Thurb. (short-hair grass) type, control plot productivity averaged 115 g/m²/yr and was reduced by 20–30% by the additional herbage removal. A more mesicDeschampsia caespitosa (L.) Beauv. (tufted hairgrass)-Carex rostrata Stokes, (beaked sedge) type had the greatest mean above-ground productivity (169 g/m²/yr) but also showed damage (i.e., decrease in productivity by 15%–20%) caused by the additional herbage removal. These data suggest that longterm, intensive herbage removal may be more detrimental to moderately mesic and mesic subalpine meadow community types than to xeric types.     

Evaluation of Storage and Filtration Protocols for Alpine/Subalpine Lake Water Quality Samples

Many government agencies and other organizations sample natural alpine and subalpine surface waters using varying protocols for sample storage and filtration. Simplification of protocols would be beneficial if it could be shown that sample quality is unaffected. In this study, samples collected from low ionic strength waters in alpine and subalpine lake inlets and outlets in the western United States were used to evaluate (1) effects of refrigerated storage time on the chemistry of unfiltered samples, and (2) differences in sample filtration protocols. No analytes exhibited significant changes when stored less than 48 h. Six analytes (pH, sodium, ammonium, potassium, chloride, sulfate) exhibited statistically significant (but small) changes when storage time exceeded 48 h. Two analytes (calcium, nitrate) were significantly higher when samples were field filtered than when filtered in the laboratory, but the differences were also small. For waters similar to those in this test, unfiltered refrigerated samples may be stored up to 48 h without compromising sample quality. The small differences between field and lab filtration do not justify the expense, training, and contamination risk of field filtration.