Radial Hydraulic Conductivity of Individual Root Tissues of Opuntia ficus-indica (L.) Miller as Soil Moisture Varies

The constraints on water uptake imposed by individual root tissueswere examined forOpuntia ficus-indicaunder wet, drying, andrewetted soil conditions. Root hydraulic conductivity (L_P) andaxial conductance (K_h) were measured for intact root segmentsfrom the distal region with an endodermis and from midroot witha periderm;L_Pwas then measured for each segment with successivetissues removed by dissection. Radial conductivity (L_R) wascalculated fromL_PandK_hfor the intact segment and for the individualtissues by considering the tissue conductivities in series.Under wet conditions,L_Rfor intact distal root segments was lowestfor the cortex; at midroot, where cortical cells are dead,L_Rforthe cortex was higher and no single tissue was the predominantlimiter ofL_R.L_Rfor the endodermis and the periderm were similarunder wet conditions. During 30d of soil drying,L_Rfor the distalcortex increased almost three-fold due to the death of corticalcells, whereasL_Rfor the midroot cortex was unaffected;L_Rforthe endodermis and the periderm decreased by 40 and 90%, respectively,during drying. For both root regions under wet conditions, thevascular cylinder had the highestL_R, which decreased by 50–70%during 30d of soil drying. After 3d of rewetting, new lateralroots emerged, increasingL_Rfor the tissues outside the vascularcylinder as well as increasing uptake of an apoplastic tracerinto the xylem of both the roots and the shoot. The averageL_Rforintact root segments was similar under wet and rewetted conditions,but the conductivity of the tissues outside the vascular cylinderincreased after rewetting, as did the contribution of the apoplasticpathway to water uptake. Opuntia ficus-indica; prickly pear; root hydraulic conductivity; endodermis; periderm; apoplast; lateral root emergence     

Suppression of Immunity by Phenobarbital

PHENOBARBITAL, one of the more commonly used sedatives, behaves as an immunosuppressant in vivo and in vitro when prescribed in conventional, clinically acceptable doses. This observation closely followed experiments in this laboratory which showed that lymphocytes from all patients receiving general- anaesthesia during surgery developed impaired reactivity to phytohaemagglutinin (PHA) immediately after operation¹. The use of thiopental sodium as an induction anaesthetic in all instances, coupled with the rapidity with which the diminished lymphocyte responses became detectable, led to the hypothesis that this drug, or one of its relatives, could be the mediator of this untoward effect.     

High and low temperature tolerances and their relationships to distribution of agaves

Abstract. The potential influence of tissue tolerances to extreme temperatures on distributional limits was investigated for 15 taxa (14 species) of leaf-succulent agaves from the south-western United States and northern Mexico. As a group, the agaves exhibited a moderate low temperature tolerance of – 11°C (based on a 50% inhibition in the number of mesophyll cells taking up a stain, neutral red). However, nearly all of the species were able to tolerate extremely high tissue temperatures of over 60°C. Nocturnal acid accumulation by these crassulacean acid metabolism plants was about 6°C more sensitive to temperature extremes than was cellular membrane integrity.
High and low temperature acclimation in response to changing day/night air temperatures was observed in all 15 taxa, with high temperature acclimation averaging two-fold greater than low temperature acclimation (3.8°C versus 2.0°C per 10°C change in ambient temperature). Species occupying the coldest habitats exhibited the greatest low temperature tolerances and acclimation; several such species, such as Agave utahensis and A. schottii , had small rosette sizes which resulted in higher minimum leaf temperatures. Species from the hottest habitats had among the greatest high temperature tolerances and acclimation; the two species from open desert scrub habitats, A. deserti and A. lecheguilla , had the lowest leaf shortwave absorptances observed, which would result in lower maximum leaf temperatures. Thus morphology and tissue tolerances to stressful temperatures reflect the temperature extremes of a plant's native habitat, although low temperature tolerance appears to limit the distribution of agaves more than high temperature tolerance.     

Light-dependent potassium uptake by Pisum sativum leaf fragments

A net K⁺ influx into chopped pea leaves bathed in 5 mM KCl,0.26 M sucrose and illuminated with 4000 lux amounted to about7.5 µmoles/g fresh weight-hr, while essentially no netflux occurred in the dark. This light-dependent K⁺ uptake waslinear with time for nearly 2 hr and continuously increasedas the light intensity was raised to 9000 lux. Over half ofthe K⁺ uptake was balanced by H⁺ release into the bathing solution,possibly by a mechanism in which bicarbonate was the anion accompanyingK⁺. The replacement of Cl^– by HCO₃^– increased thelight-dependent K⁺ uptake to 56 µmoles/g fresh weight-hr.About 23% of the light-dependent K⁺ uptake in 5 mM KCl was accompaniedby a Cl^– uptake. This net Cl^– influx was less sensitiveto the uncoupler tri-Fl-CCP and more sensitive to DCMU in thebathing solution than was the K⁺ uptake. The remaining net K⁺influx into pea leaf fragments was balanced by effluxes of sodium(accounting for 5%), magnesium (8%) and calcium (1%). (Received March 31, 1969; )     

Root Hydraulic Conductivity of Two Cactus Species in Relation to Root Age, Temperature, and Soil Water Status

The effects of root age, temperature, and soil water statuson root hydraulic conductivity (L_P) were investigated for twocactus species, Ferocactus acanthodes and Opuntia ficus-indica.The volumetric flux density of water was measured for excisedroot segments, either using negative hydrostatic pressures appliedto the proximal end or using reverse flow of water from theroot to the soil. For both species, L_P at 20 ?C increased withroot age, average values reaching a maximum of 3.9 ? 10^–7m s^–1 MPa^–1 for F. acanthodes and 5.2 ? 10^–7m s^–1 MPa^–1 for O.ficus-indica at 11 to 17 weeksof age; L_P subsequently declined with increasing root age forboth species. L_P was maximal at a temperature of about 10 ?Cfor the youngest roots (1–3 weeks), this optimum shiftingto 40 ?C for 8-week-old roots of both species. For older roots(up to 1.5-years-old), L_P increased with temperature from 0?C to 50 ?C, with a Q₁₀ of 1.3 between 20 ?C and 30 ?C. At asoil water potential (_soil) of –0.016 MPa, root L_P wasindependent of the direction of water flow for both species.Depending on root age, L_P declined 45- to 500-fold for F. acanthodesand 90- to 800-fold for O.ficus-indica as _soil was reduced from–0.016 to –1.06 MPa, consistent with a rectifier-likebehaviour with respect to water movement between soil and roots.Incorporation of such responses into water uptake models shouldlead to a better understanding of root function. Key words: Ferocactus acanthodes, Opuntia ficus-indica, water potential, tension, reverse flow     

Root Respiration for Agave deserti: Influence of Temperature, Water Status and Root Age on Daily Patterns

Root respiration, measured as CO₂ efflux, was studied for asucculent perennial from the Sonoran Desert, Agave deserti,with a new technique using individual, attached roots. The dailypatterns of root respiration closely followed the daily patternsof root temperature for both established roots and rain roots,with higher rates during the day when root temperature averaged27?C and lower rates at night when root temperature averaged17?C. When root temperature was raised from 5?C to 40?C, rootrespiration increased about 7-fold; from 45 ?C to 55 ?C, rootrespiration decreased about 2-fold, except for old establishedroots. Root respiration per unit dry weight for both root typesdecreased with age, the initial decrease being greater for rainroots than for established roots. Root respiration rates forrain roots were reduced to zero at a soil water potential (_soil)of –0.9 MPa and did not recover upon rewatering. Upondrying, root respiration rates for established roots were maintainedat about 12% of maximum, even when _soil fell to –1.6 MPa,and fully recovered 1.5 d after rewatering the soil. Such responsesof rain and established roots must be taken into account whenassessing the carbon costs for the root system. Key words: Agave deserti, CO₂ exchange, root respiration, temperature, soil water potential     

Relationships between stream macroinvertebrates and environmental variables at multiple spatial scales

1. Aquatic communities are structured by multiple forces, and identifying the driving factors over multispatial scales is an important research issue. The East Asian monsoon region is globally one of the richest environments in terms of biodiversity, and is undergoing rapid human development, yet the river ecosystems in this region have not been well studied. We applied a hierarchical framework to incorporate regional and local environmental effects on stream macroinvertebrate communities in this region. The knowledge gained is expected to improve the understanding of the importance of spatial scale on regional and local diversity in the East Asian monsoon region. 2. A national data set of benthic macroinvertebrates and environmental variables (geographical, land‐use, hydrological, substratum and physicochemical elements) in Korean rivers was used to determine the habitat preferences of macroinvertebrates. 3. Latitude, proportion of forest coverage, riffle habitat, silt substratum and temperature were the most important determinants for the ordinations of macroinvertebrate communities in each category evaluated by canonical correspondence analysis (CCA). The optimal habitats for stream macroinvertebrates are not the same for all species, and overall community metrics and abundance of sensitive species tended to be lower in open agricultural and urban streams than in forested streams. The sensitivity of mayflies and stoneflies to anthropogenic disturbances implicated them as good indicators to assess the effects of urban and agricultural activities. 4. A partial CCA was used to evaluate the relative importance of macrohabitat and microhabitat variables on community composition at three spatial scales (whole country, the large Han River basin and two small sub‐basins in the lowlands and highlands). The majority of community variation (17–22% for each environmental element) was explained by macrohabitat variables at the regional spatial scale. In contrast, large proportions (15–18%) were explained by microhabitat variables at the local spatial scale. 5. Our findings indicate that the relative importance of habitat scales should be determined by geographical size and that comprehensive understanding of multispatial scale patterns can be important for implementing sound biodiversity conservation programmes.     

Description of a new Homidia species (Collembola,Entomobryidae) from Korea

A new species, Homidia pseudoformosana from Korea is described in the present paper. The new species is characterized by labral papillae, ciliated labial seta L₁ and dorsal chaetotaxy of abdominal segment IV. The detailed differences between similar Homidia species are provided.