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1

Monograph available for loan

Plant physiological ecology : field methods and instrumentation (1989)

Pearcy, Robert W. ; Ehleringer, J. ; Mooney, H.A. ; [et al.]

London [u.a.] : Chapman and Hall

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Call number: PIK N 613-92-0523

Type of Medium: Monograph available for loan

Pages: XIX, 457 S. : Ill., graph. Darst.

ISBN: 0412232308

Location: A 18 - must be ordered

Branch Library: PIK Library

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2

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Leaf conductance and transpiration, and water relations of evergreen and deciduous perennials co-occurring in a moist chaparral site (1984)

CALKIN, HOWARD W. ; PEARCY, ROBERT W.

Oxford, UK : Blackwell Publishing Ltd

Plant, cell & environment 7 (1984), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Abstract. Diurnal courses of leaf conductance, water potential and environmental parameters were measured through the year. The seasonal decreases in plant water potentials were greatest in evergreen H. arbutifolia, intermediate in winter deciduous C. occidentalis and least in drought deciduous A. californica. The seasonal patterns of water use were very similar. Estimates of soil root-stem conductances to liquid water flux indicate that during the spring, conductances are high, that during the early summer there is a daily shift from high morning conductances to lower afternoon conductances, and that late summer conductances are low.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/1365-3040.ep11589798

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3

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Seasonal progressions of tissue and cell water relations parameters in evergreen and deciduous perennials (1984)

CALKIN, HOWARD W. ; PEARCY, ROBERT W.

Oxford, UK : Blackwell Publishing Ltd

Plant, cell & environment 7 (1984), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Abstract. Tissue and cell water relations parameters were followed for Heteromeles arbutifolia, Cercis occidentalis and Aesculus californica, in an environment exhibiting seasonally increasing drought. The extensive seasonal osmotic adjustment of evergreen H. arbutifolia and the moderate adjustment in C. occidentalis closely matched their respective seasonal decreases in minimum daily water potential. Summer deciduous A. californica exhibited only small drops in osmotic potential and water potential. Experiments with irrigated plants indicated that drought was not required for the osmotic adjustment of H. arbutifolia and C. occidentalis. However, in H. arbutifolia drought treatment enhanced osmotic adjustment. In irrigated H. arbutifolia, osmotic adjustment was mainly the result of an accumulation of osmotica. In drought-stressed plants, the same change in osmotic potential resulted from a combination of accumulation of osmotica and a decrease in symplast volume.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/1365-3040.ep11589802

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4

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Photosynthesis and respiration in Alocasia macrorrhiza following transfers to high and low light (1991)

Sims, Daniel A. ; Pearcy, Robert W.

Springer

Oecologia 86 (1991), S. 447-453

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ISSN: 1432-1939

Keywords: Construction cost ; Cost/benefit analysis ; Maintenance cost ; Respiration ; Sun/shade acclimation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Photosynthetic capacities and respiration rates of Alocasia macrorrhiza leaves were measured for 4 weeks following reciprocal transfers between high (20% of full sun) and low (1% of full sun) light environments. Photosynthetic capacities and respiration rates of mature, high-light leaves were 1.7 and 4.5 times those of low-light leaves, respectively. Following transfer, respiration rates adjusted within 1 week to those characteristic of plants grown in the new environment. By contrast, photosynthetic capacities either did not adjust or changed only slowly following transfer. Most of the difference in respiration between high- and low-light leaves was related to the carbohydrate status as determined by the daily PFD and little was directly related to the maintenance costs of the photosynthetic apparatus. Leaf construction cost was directly proportional to maximum photosynthetic capacity. Consequently, although daily carbon gain per unit leaf area was the same for low-light and high to low-light transferred plants within a week after transfer, the carbon return per unit of carbon investment in the leaves remained lower in the high to low transfer plants throughout the 4 week measurement period. Conversely, in high-light, the low leaf construction cost of the low to high-light transferred plants resulted in carbon gain per unit investment just as high as that of the high-light plants.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00317615

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5

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Influence of sunflecks on the δ 13 C of Adenocaulon bicolor plants occurring in contrasting forest understory microsites (1991)

Pearcy, Robert W. ; Pfitsch, William A.

Springer

Oecologia 86 (1991), S. 457-462

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ISSN: 1432-1939

Keywords: Carbon isotopes ; Photosynthesis ; Gas exchange ; Sun/shade adaptation ; Stomatal conductance

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Leaf characteristics and carbon isotope ratios (δ13C) of Adenocaulon bicolor were examined in the understory of a redwood forest along a gradient of microsites that differed in the amount of direct (sunfleck) photon flux density. Comparisons were made between plants that had been shaded from sunflecks with shadow bands but still received diffuse light, and adjacent plants that received both sunflecks and diffuse light. The δ13C of the shaded plants were 1.2‰ lower than predicted from the intercellular CO2 pressure (pi), probably because of recycling of respired CO2 in the understory. Plants receiving sunflecks had higher δ13C values because assimilation during sunflecks occurred at a lower pi than assimilation in diffuse light. The amount that their δ13C was higher was positively correlated with predicted direct photon flux density received by a plant. Leaf weight per unit area increased with increasing PFD. Although plants receiving sunflecks had greater leaf weights per unit area and photosynthetic capacities than those under shadow bands, there was no apparent acclimation of photosynthetic capacity to the differences in PFD among the microsites.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00318310

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Photosynthetic characteristics of a tropical forest understory herb, Alocasia macrorrhiza, and a related crop species, Colocasia esculenta grown in contrasting light environments (1989)

Sims, Daniel A. ; Pearcy, Robert W.

Springer

Oecologia 79 (1989), S. 53-59

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ISSN: 1432-1939

Keywords: Leaf nitrogen ; Photoinhibition ; Photosynthetic acclimation ; Respiration ; Sun/shade adaptation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Photosynthetic acclimation to 5 light environments ranging from 2 to 60% full sun was determined in Alocasia macrorrhiza, a shade tolerant species from tropical forest understories, and Colocasia esculenta, a cultivated species which occurs naturally in open marshy areas. Photosynthetic capacities of both species increased nearly 3 fold with increased photon flux density (PFD). In a given environment, however, photosynthetic capacities of C. esculenta were double those of A. macrorrhiza. Stomatal limitations explained only a small part of this difference. Respiration rates and estimated biochemical capacities increased in parallel to photosynthetic capacity. No differences were observed either between species or environments in the ratio of RuBP regeneration capacity to carboxylation capacity as determined from the CO2 dependence response of photosynthesis. Quantum yields of both species decreased only slightly with increasing growth PFD, providing little evidence for photoinhibition at high PFD. The results are discussed in terms of the mechanisms of and limitations on acclimation in these two species.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00378239

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7

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A three-dimensional crown architecture model for assessment of light capture and carbon gain by understory plants (1996)

Pearcy, Robert W. ; Yang, Weimin

Springer

Oecologia 108 (1996), S. 1-12

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ISSN: 1432-1939

Keywords: Crown architecture ; Carbon gain ; Light capture ; Undersotry plants

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract A model simulating the three-demensional crown architecture of a plant was developed with the objective of assessing the light capture and whole-plant carbon gain consequences of leaf display in understory plants. This model uses geometrical measurements taken in the field to reconstruct the projected image of a plant so that light absorption from any direction can be assessed. The photon flux density (PFD) from a given direction was estimated from the canopy openness derived from hemispherical canopy photographs and equations simulating the daily course of direct and diffuse PFD. For diffuse PFD, the directional fluxes and absorbed PFD were integrated over 160 different directions representing 8 azimuth classes and 20 elevation angle classes. Direct PFD absorption was determined for the time that a solar track on a given day intersected a canopy gap. Assimilation rate was simulated for the sunlit and shaded parts of leaves separately and then summed to give the whole-plant carbon gain. Comparisons of simulations for a tropical forest edge species, Clidemia octona, and an understory species, Conostegia cinnamomea, illustrate the operation of the model and show that the edge species is more efficient at capturing side light while the understory species is slightly more efficient at capturing light from directly above, the predominant light direction in this environment. Self-shading within Conostegia crown and steep leaf angles in the Clidemia crown reduced light capture efficiencies for light from directly above. Whole-plant daily carbon gain was much higher in the forest edge site, mostly because of the additional PFD available in this site. However, simulations for both species in the understory light environment show that the higher light capture efficiencies of the understory species in this environment conferred a 27% advantage in carbon gain in this environment.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00333208

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8

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Photosynthetic responses to dynamic light under field conditions in six tropical rainforest shrubs occuring along a light gradient (1997)

Valladares, F. ; Allen, Mitchell T. ; Pearcy, Robert W.

Springer

Oecologia 111 (1997), S. 505-514

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ISSN: 1432-1939

Keywords: Key words Sunflecks ; Photosynthetic induction ; Shade plants ; Variable light utilization ; Stomatal conductance

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract We examined in the field the photosynthetic utilization of fluctuating light by six neotropical rainforest shrubs of the family Rubiaceae. They were growing in three different light environments: forest understory, small gaps, and clearings. Gas exchange techniques were used to analyse photosynthetic induction response, induction maintenance during low-light periods, and lightfleck (simulated sunfleck) use efficiency (LUE). Total daily photon flux density (PFD) reaching the plants during the wet season was 37 times higher in clearings than in the understory, with small gaps exhibiting intermediate values. Sunflecks were more frequent, but shorter and of lower intensity in the understory than in clearings. However, sunflecks contributed one-third of the daily PFD in the understory. Maximum rates of net photosynthesis, carboxylation capacity, electron transport, and maximum stomatal conductance were lower in understory species than in species growing in small gaps or clearings, while the reverse was true for the curvature factor of the light response of photosynthesis. No significant differences were found in the apparent quantum yield. The rise of net photosynthesis during induction after transfer from low to high light varied from a hyperbolic shape to a sigmoidal increase. Rates of photosynthetic induction exhibited a negative exponential relationship with stomatal conductance in the shade prior to the increase in PFD. Leaves of understory species showed the most rapid induction and remained induced longer once transferred to the shade than did leaves of medium- or high-light species. LUE decreased rapidly with increasing lightfleck duration and was affected by the induction state of the leaf. Fully induced leaves exhibited LUEs up to 300% for 1-s lightflecks, while LUE was below 100% for 1–80 s lightflecks in uninduced leaves. Both induced and uninduced leaves of understory species exhibited higher LUE than those of species growing in small gaps or clearings. However, most differences disappeared for lightflecks 10 s long or longer. Thus, understory species, which grew in a highly dynamic light environment, had better capacities for utilization of rapidly fluctuating light than species from habitats with higher light availability.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004420050264

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9

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The light environment and growth of C3 and C4 tree species in the understory of a Hawaiian forest (1983)

Pearcy, Robert W.

Springer

Oecologia 58 (1983), S. 19-25

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ISSN: 1432-1939

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The light environment in the understory of a Hawaiian forest containing a C4 tree species, Euphorbia forbesii, was characterized using photosynthetic photon flux density sensors connected to portable data acquisition systems and a strip chart recorder, and hemispherical “fisheye” photographs of the canopy. During July 1980, 86 μmol cm2 day1 was received in the understory of which approximately 40% was contributed by sunflecks. The understory received 2.4% of the light reaching the top of the canopy. Nearly all sunflecks had peak photon flux densities greater than 250 μmol m2 s1, but two-thirds were less than 0.5 min in length. The number of minutes of sunflecks received per day at any site was highly variable, depending on cloudiness and the overstory canopy structure. On a relatively clear day a 10-fold difference in the number of minutes of sunflecks was observed between sample sites. Estimates obtained from hemispherical photographs were used to calculate the annual mean potential number of minutes of sunflecks per day received by saplings of Euphorbia and a C3 tree species, Claoxylon sandwicense. The growth of saplings of both species was highly correlated with the estimates of the minutes of sunflecks and was similar for both species. Although C4 photosynthesis is usually found in plants native to high-light environments, it does not appear to confer any disadvantage in terms of growth to Euphorbia forbesii in the low-light conditions of the forest understory.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00384537

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Carbon dioxide exchange of C3 and C4 tree species in the understory of a Hawaiian forest (1983)

Pearcy, Robert W. ; Calkin, Howard W.

Springer

Oecologia 58 (1983), S. 26-32

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ISSN: 1432-1939

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Field measurements of photosynthetic CO2 exchange were made on saplings of a C4 tree species, Euphorbia forbesii, and a C3 tree species, Claoxylon sandwicense, in a shaded mesic forest on Oahu, Hawaii. Both species had light responses typical of those generally found in shade plants. Light saturated photosynthetic rates were 7.15 and 4.09 μmol m2 s1 and light compensation points were 6.3 and 1.7 μmol m2 s1 in E. forbesii and C. sandwicense, respectively. E. forbesii maintained a higher mesophyll conductance and a higher water use efficiency than C. sandwicense as is typically found in comparisons of C4 and C3 plants. Under natural light regimes, both species maintained positive CO2 uptake rates over essentially the entire day because of low respiration rates and light compensation points. However, photosynthesis during sunflecks accounted for a large fraction of the daily carbon gain. The results show that the carbon-gaining capacity of E. forbesii is comparable to that of a C3 species in a moderately cool, shaded forest environment. There appears to be no particular advantage or disadvantage associated with the C4 photosynthetic pathway of E. forbesii in this environment.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00384538

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