Reduction of nitrate in the perennial tissues of aerial parts of Alnus glutinosa

In vivo nitrate reductase (NR, EC 1.6.6.1.) activity was measured in leaves, branches and trunk of field-grown Alnus glutinosa (L.) Gaertn. All of the assayed tissues enzymatically reduced nitrate with a decreasing activity [μmol NO₂⁻ (g dry weight)⁻¹ h⁻¹] in the order: leaves > branch bark > inner branch tissues > trunk xylem. The NR activity of the various tissues of excised branches was inhibited by tungstate added to the transpiration stream. Part of the nitrate added to the feeding solution (0.2, 0.5 or 1 m M KNO₃) of excised branches disappeared during its transport via the transpiration stream in the perennial tissues. This disappearance was enzymatic since it was decreased by tungstate.
No evidence was obtained for the presence of nitrate in natural xylem sap nor for a significant correlation between nitrate content of soil and leaf NR activity. These results indicate that in the field-grown black alder, the nitrate not reduced in the roots could be reduced in the perennial tissues of aerial parts. Since the leaf NR activity does not reflect the actual in situ nitrate reduction, the existence of a constitutive NR activity in Alnus leaves is suggested.     

Neighbor-stranger discrimination by song in a suboscine bird, the alder flycatcher, Empidonax alnorum

Bird song and its functions have been studied extensively formore than 50 years, but almost entirely in oscine passerines.Few studies have investigated any aspect of song in suboscinepasserines. This is significant because song development andthe extent of individual variation in song differs greatly betweenthese groups. Learning and auditory feedback play major rolesin song development in all oscines studied, but apparently nopart in song ontogeny in suboscines. The ability of territorialoscine males to discriminate between songs of neighbors andstrangers has received considerable attention, but this phenomenonis virtually unstudied in suboscines. We tested whether a suboscinebird, the alder flycatcher (Empidonax alnorum), was able todiscriminate between songs of neighbors and strangers despitelimited individual variation in song. We performed playbackexperiments to measure responses of males to songs of neighborsand strangers broadcast from the territory boundary shared bythe subject and the neighbor. Subjects responded more aggressivelyto songs of strangers than to songs of neighbors. These resultsfurther our understanding of the evolution of song and its functionsin suboscines by demonstrating that, similar to their oscinerelatives, they can discriminate between the songs of neighborsand strangers.     

Behavior of current-year shoots as a mechanism to determine the floral sex allocation at the level of individual tree and population in Siberian alder (Alnus hirsuta var. sibirica)

Floral sex allocation (weight of male flower buds over weight of female flower buds) was examined at the levels of current-year shoot, individual tree and population, and the tree individual level and population level floral sex ratio was explained as a consequence of the behavior of current-year shoots in the shoot-level monoecious (flowering current-year shoots have both male and female flowers) species, Siberian alder (Alnus hirsuta var. sibirica). The current-year shoot level floral sex allocation was not size-dependent and not different over years. However, in the year when the reproductive intensity was high, individual tree level floral sex allocation was size-dependent and the population level floral sex allocation was relatively female-biased. The female-biased floral sex allocation at the population level resulted from many gynoecious shoots (current-year shoots which have only female flowers). These results suggest that the floral sex allocation of Siberian alder was controlled not by changing the floral sex allocation of each current-year shoot, but by shifting the sex expression of current-year shoots from shoot-level monoecy to shoot-level gynomonoecy.     

Spatial heterogeneity in water velocity drives leaf litter dynamics in streams

1. Stream hydro-morphology refers to the heterogeneous distribution of hydrologic conditions that occur above a complex benthic surface such as a streambed.
2. We hypothesised that hydro-morphological conditions will influence the retention, re-distribution, and microbial-driven decomposition of leaf litter inputs in stream ecosystems because each process varies with overlying water velocity.
3. We tested this hypothesis using: (1) the spatial distribution of water velocity within a stream reach as a surrogate of stream hydro-morphology; (2) leaf tracer (i.e. Ginkgo biloba L.) additions with serial recovery to examine the relationship between benthic retention and overlying velocity; and (3) measurements of leaf litter decomposition (i.e. Alnus glutinosa [L.] Gaertn.) under different water velocity conditions.
4. Results demonstrate that water velocity exerts a significant influence on the retention and re-distribution of leaf litter inputs within the reach. The observed range of water velocity (from c. 0 to 0.92 cm/s) also strongly influences the range of leaf litter decomposition rates (0.0076–0.0222/day).
5. Our findings illustrate that water velocity influences leaf litter dynamics in streams by controlling leaf litter transport, retention and re-distribution as well as how leaves decompose within recipient stream reaches. Ultimately, the results show that the efficiency of leaf litter inputs in supporting stream ecosystem function is dependent on the hydro-morphological characteristics of the receiving stream ecosystems.

     

Seasonal flooding regimes influence survival,nitrogen fixation,and the partitioning of nitrogen and biomass in Alnus incana ssp. rugosa

Alteration of natural flooding regimes can expose lowlands to waterlogged soil conditions during any month of the year. The seasonality of flooding may have profound effects on the carbon and nitrogen budgets of N-fixing alders (Alnus spp.), and in turn, may impact the C and N economy of extensive alder-dominated, wetland ecosystems, including those dominated by speckled alder (Alnus incana ssp. rugosa). To better understand this process, two-year-old, nodulated seedlings of speckled alder were subjected to late spring (May 10 – July 10), summer (July 10 – September 8), and fall (September 8 – November 8) flooding treatments. Alders were root-flooded outdoors in tanks containing an N-free nutrient solution and compared with unflooded alders at the experimental site. Flooding arrested N fixation, photosynthesis, and growth of alders without recovery in all flooding treatments for the remainder of the growing season. Late spring and summer flooding resulted in complete mortality of alders while all seedlings survived flooding in the fall. Fall flooding increased foliar N resorption by 140% over unflooded seedlings. Eighty-seven percent of the total N fixed and 89% of biomass accumulation for the entire growing season occurred in unflooded alders after July 10. In unflooded alders, nitrogen fixation rates per unit mass declined by 63% for nodules, 28% for leaves, and 48% for whole seedlings during the fall, while total N fixed per plant in the fall was similar to that fixed in the summer. The majority of newly fixed N in unflooded alders was allocated to leaves before September 8 and to roots/nodules combined after September 8. In unflooded plants, the greatest proportion of new biomass was partitioned to leaves before July 10, to stems between July 10 and September 8, and equally to stems and roots/nodules after September 8. Fall-flooded alders did not increase root or nodule biomass. Proportional allocation of plant resources were such that the ratio of N fixed to seedling growth of unflooded alders decreased by 19% during summer before rebounding by 6% in fall. Seasonality of flooding alters seedling survival, growth, and resource allocation, and may be a critical determinant of speckled alder recruitment and occurrence in wetlands.     

The effectivity of Frankia for nodulation and nitrogen fixation in Alnus rubra and A. glutinosa

The effectivity of nodulation of Alnus rubra Bong, by Frankia isolates from A. rubra and Alnus glutinosa (L.) Gaertn. in Northern Britain was compared with strains from The Netherlands and North America, using plants grown in combined nitrogen-free conditions. All strains gave rise to spore (-) nodules, even when isolated from nodules from sites known to contain spore (+) nodules. Nodules of all plants evolved little hydrogen, probably due to the presence of an efficient uptake hydrogenase in the microsymbkmts. Nodule weight as a percentage of whole plant weight was higher for nodules of low specific activity (N fixed per unit weight nodules), attaining a maximum of 5.1% of plant dry weight in the least effective of the heterologous associations of A. glutinosa Frankia with A. rubra . The range of variation in nodule specific activity was much greater in heterologous than homologous associations, but nodules of high specific activity were found in both associations. However, plants that fixed most N during the growth period were not those with nodules of highest specific activity. The most effective associations were homologous symbioses, which combined good nodule growth per plant with satisfactory specific activity, fixing N at rates which would support superior plant growth under the prevailing growth conditions. Preliminary field experiments suggest that the most effective of the A. rubra isolates is suitable for use as an inoculant in nurseries. Strains isolated from A. glutinosa were more effective and showed a different order of effectivity in homologous symbioses compared with their association with A. rubra . An A. glutinosa strain was isolated, which stimulated satisfactory nodule growth and gave good nodule specific activity in both A. rubra and A. gtutinosa .     

Mature trees as keystone structures in Holarctic ecosystems – a quantitative species comparison in a northern English park

Background: Mature trees often provide ecological niches of value to specialised flora and fauna, signalled by such attributes as epiphytes, trunk rot and dead branches. In Britain, they are often found in parklands and wood pastures, which are rare habitats in Europe.

Aims: As species differences in veteran attributes of such trees have not been studied, we surveyed eight Holarctic tree species in Chillingham Park, in north-east England, where the stems are of broadly similar age (200–250 years).

Methods: The following variables were scored for 779 trees: presence or absence of veteran attributes, community status (alone, in a group, or in a linear feature), stem diameter, altitude at which growing, and the ground vegetation.

Results: Trees were generally of only moderate mean diameter. Alder (Alnus glutinosa) and ash (Fraxinus excelsior) had the most veteran attributes (4.30 and 4.16, respectively), followed by oak (Quercus sp.) (3.65), then by birch (Betula agg.) (3.49), beech (Fagus sylvatica) (3.12), sycamore (Acer pseudoplatanus) (2.77), larch (Larix sp.) (2.47) and Scots pine (Pinus sylvestris) (1.92). Trees growing at middle altitudes and alone, or in linear features (rather than in groups), had most veteran attributes; 32% of trees exhibited three or more.

Conclusions: To capture the veteran tree interest of a site, a survey protocol must consider the history of a site as well as the numbers of veteran attributes exhibited by individual trees, which may differ among species. Finally, alder has not attracted particular attention in these habitats, and we suggest that its fast-growing and rot-prone nature may make it of particular interest for conservation of saproxylic biodiversity.     

Early interactions between Alnus glutinosa and Frankia strain ArI3. Production and specificity of root hair deformation factor(s)

Actinomycetes from the genus Frankia are able to form symbiotic associations with more than 200 different species of woody angiosperms, so called actinorhizal plants. Many actinorhizal plants are infected via deformed root hairs. Factor(s) eliciting root hair deformation in actinorhizal symbioses have been found to be released into the culture medium, but the factor(s) has (have) not yet been characterized. In the present work, we describe the constitutive production of factor(s) by Frankia strain ArI3 causing root hair deformation on Alnus glutinosa . Deformation was detected after 4–5 h of incubation with both Frankia cultures and their cell-free culture filtrates. When culture filtrate was used, deformation was concentration dependent. A contact time of 2 min between culture filtrate and host roots was sufficient to induce subsequent root hair deformation. No root hair deformation on A. glutinosa could be detected with purified Nod factors from Rhizobium meliloti or R. leguminosarum biovar viciae . No correlation was found between Frankia strains belonging to different host specificity groups and their ability to deform root hairs on A. glutinosa. However, strains not able to deform root hairs on A. glutinosa were also unable to nodulate.