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Sources of plant-derived carbon and stability of organic matter in soil: implications for global change 总被引:2,自引:0,他引:2
SUSAN E. CROW KATE LAJTHA TIMOTHY R. FILLEY† CHRISTOPHER W. SWANSTON‡ RICHARD D. BOWDEN§ BRUCE A. CALDWELL 《Global Change Biology》2009,15(8):2003-2019
Alterations in forest productivity and changes in the relative proportion of above‐ and belowground biomass may have nonlinear effects on soil organic matter (SOM) storage. To study the influence of plant litter inputs on SOM accumulation, the Detritus Input Removal and Transfer (DIRT) Experiment continuously alters above‐ and belowground plant inputs to soil by a combination of trenching, screening, and litter addition. Here, we used biogeochemical indicators [i.e., cupric oxide extractable lignin‐derived phenols and suberin/cutin‐derived substituted fatty acids (SFA)] to identify the dominant sources of plant biopolymers in SOM and various measures [i.e., soil density fractionation, laboratory incubation, and radiocarbon‐based mean residence time (MRT)] to assess the stability of SOM in two contrasting forests within the DIRT Experiment: an aggrading deciduous forest and an old‐growth coniferous forest. In the deciduous forest, removal of both above‐ and belowground inputs increased the total amount of SFA over threefold compared with the control, and shifted the SFA signature towards a root‐dominated source. Concurrently, light fraction MRT increased by 101 years and C mineralization during incubation decreased compared with the control. Together, these data suggest that root‐derived aliphatic compounds are a source of SOM with greater relative stability than leaf inputs at this site. In the coniferous forest, roots were an important source of soil lignin‐derived phenols but needle‐derived, rather than root‐derived, aliphatic compounds were preferentially preserved in soil. Fresh wood additions elevated the amount of soil C recovered as light fraction material but also elevated mineralization during incubation compared with other DIRT treatments, suggesting that not all of the added soil C is directly stabilized. Aboveground needle litter additions, which are more N‐rich than wood debris, resulted in accelerated mineralization of previously stored soil carbon. In summary, our work demonstrates that the dominant plant sources of SOM differed substantially between forest types. Furthermore, inputs to and losses from soil C pools likely will not be altered uniformly by changes in litter input rates. 相似文献
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J. F. CROW 《Genetics》1990,124(2):207-211
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E. CROW C. H. STIRTON D F. CUTLER 《Botanical journal of the Linnean Society. Linnean Society of London》1997,124(2):155-182
Leaf anatomy is described from 17 species of Psoralea sensu stricto which includes four species of the genus Hallia Thunberg. Species of the two genera share many characters including the presence of rod-shaped crystals, similar stipule structure and a possible continuum in secretory cavity anatomy ranging from a small and non-trabeculate to a large and trabci ulate form. Hallia species are distinguished b the presence of large tannin cells in the bundle sheaths and a narrow lcngllv.width ratio of palisade cells. In the light of other floral evidence this is considered insufficient to separate the two genera, a view confirmed by cluster analysis. Thus, Salter's proposal of 1939 for their amalgamation is supported. Leaf anatomy of herbaceous species is compared with that of seedlings of Psoralea sp. to assess the possibility that the herbaceous species may have arisen through neoteny from species that are trees or shrubs. Comparative venation studies between stipules and scale leaves suggest that the scale leaf form arose from pinnate-leaved ancestors by leaf reduction. 相似文献
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SYNOPSIS. Most vertebrate skeletal muscles consist of a heterogeneousarray of muscle fiber types that are distinguishable, in part,by differences in their contractile protein isoform content.It is often suggested that the information necessary for directingthe development of these fiber types is derived from interactionswith factors outside the muscle fibers themselves and, in particular,with innervating motoneurons. However, recent data from thisand other laboratories indicate that the emergence of fiberspecialization within developing muscle is not dependent oninnervation at all. These studies recognize two periods of embryonicfiber specialization. The first occurs during early embryonicdevelopment as individual muscles are formed from primary generationfibers expressing different myosin isoform types. The formationof these "early" muscle fiber types and their characteristicdistributions within and among different muscles are not dependenton interactions with innervating motoneurons. Furthermore, myoblastsisolated from "early" embryonic muscle tissue and cultured invitro display the same heterogeneity of myosin expression asthe primary generation fiber types in ovo, suggesting that thedifferences in expression among early muscle fiber types arepreprogrammed within their myoblasts. The second period occurs"late" in development after the major morphological events oflimb formation are complete and the initial pattern of fibertypes has been established. It is during this period that massivegrowth of most muscles occurs which is due, in part, to theformation of a secondary generation of muscle fibers. Thesesecondary generation fibers in ovo and the cultured myotubesderived from "late" embryonic myoblasts exhibit a single myosinphenotype (e.g., fast). The transition from "early" to "late"embryonic phases is accompanied by a change in fast myosin heavychain expression and is blocked by agents that disrupt neuromuscularcontacts. 相似文献
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S. K. CROW G. P. CLOSS J. M. WATERS D. J. BOOKER G. P. WALLIS 《Freshwater Biology》2010,55(5):967-982
1. Numerous interacting abiotic and biotic factors influence niche use and assemblage structure of freshwater fishes, but the strength of each factor changes with spatial scale. Few studies have examined the role of interspecific competition in structuring stream fish assemblages across spatial scales. We used field and laboratory approaches to examine microhabitat partitioning and the effect of interspecific competition on microhabitat use in two sympatric stream fishes (Galaxias‘southern’ and Galaxias gollumoides) at large (among streams and among sites within streams) and small (within artificial stream channels) spatial scales. 2. Diurnal microhabitat partitioning and interspecific competition at large spatial scales were analysed among three sympatry streams (streams with allotopic and syntopic sites; three separate catchments) and four allopatry streams (streams with only allotopic sites; two separate catchments). Electro‐fishing was used to sample habitat use of fishes at 30 random points within each site by quantifying four variables for each individual: water velocity, depth, distance to nearest cover and substratum size. Habitat availability was then quantified for each site by measuring those variables at each of 50 random points. Diet and stable isotope partitioning was analysed from syntopic sites only. Diel cycles of microhabitat use and interspecific competition at small spatial scales were examined by monitoring water velocity use over 48 h in artificial stream channels for three treatments: (i) allopatric G. ‘southern’ (10 G. ‘southern’); (ii) allopatric G. gollumoides (10 G. gollumoides) and (iii) sympatry (five individuals of each species). 3. One hundred and ninety‐four G. ‘southern’ and 239 G. gollumoides were sampled across all seven streams, and habitat availability between the two species was similar among all sites. Galaxias‘southern’ utilised faster water velocities than G. gollumoides in both the field and in channel experiments. Both species utilised faster water velocities in channels at night than during the day. Diet differences were observed and were supported by isotopic differences (two of three sites). No interspecific differences were observed for the other three microhabitat variables in the field, and multivariate habitat selection did not differ between species. Interspecific competition had no effect on microhabitat use of either species against any variable either in the field (large scale) or in channels (small scale). 4. The results suggest that niche partitioning occurs along a subset of microhabitat variables (water velocity use and diet). Interspecific competition does not appear to be a major biotic factor controlling microhabitat use by these sympatric taxa at any spatial scale. The results further suggest that stream fish assemblages are not primarily structured by biotic factors, reinforcing other studies de‐emphasising interspecific competition. 相似文献
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E. CROW R.J. MURPHY 《Botanical journal of the Linnean Society. Linnean Society of London》2000,134(1-2):339-359
Results of trials using chemical and enzymatic wall extractants for the removal of matrix materials for in situ observations of newly deposited microfibrils are described. Observations were then made of the orientation of microfibrils on the inner walls of differentiating and maturing fibres and parenchyma cells under the FESEM. Orientation changes were similar in both cell types. During very early primary wall development, deposition of microfibrils was in more or less axial alignment, which was later superseded by microfibrils in transverse orientation (90o to the long axis). A transverse orientation of microfibrils remained throughout much of primary wall synthesis, until an abrupt shift occurred to a sloped orientation during late primary wall synthesis. Microfibrils of the first secondary wall layer were in axial alignment or steeply sloped. In subsequent secondary wall deposition there was an alternation between a transverse and a sloped or axial alignment in maturing fibres and parenchyma cells. 相似文献