Your search keyword '"Lange, Otto"' showing total 7 results

1. How to minimize the sampling effort for obtaining reliable estimates of diel and annual CO2 budgets in lichens.

Author

Bader, Maaike Y., Zotz, Gerhard, and Lange, Otto L.

Subjects

BRYOPHYTES, LICHENS, LECANORA, GAS exchange in plants, PHOTOSYNTHESIS

Abstract

Estimating carbon budgets for poikilohydric organisms, such as lichens and bryophytes, requires methods other than those for homoiohydric plants due to a strong dependency of carbon gain on fluctuating hydration. This paper provides guidance with respect to optimal sampling strategies for estimating annual carbon budgets of lichens and bryophytes, based on a one-year dataset of half-hourly CO2-exchange readings on the epilithic placodioid lichen Lecanora muralis (syn. Protoparmeliopsis muralis) and tests the effects of reduced sampling frequencies and different temporal sampling schemes on carbon budget estimates. Both fine-scale sampling (measurements within a day) and large-scale sampling (selection of days within a year) are addressed. Lowering the sampling frequency within a day caused large deviations for 24-h (diel) budget estimates. Averaged over a larger number of days, these errors did not necessarily cause a large deviation in the annual budget estimate. However, the occurrence of extreme deviations in diel budgets could strongly offset the annual budget estimate. To avoid this problem, frequent sampling (c. every 1·5 hours) is necessary for estimating annual budgets. For estimating diel budgets and patterns a more frequent sampling (every c. 0·5 hours, balancing data resolution and disturbance) is often needed. Sampling fewer than 365 days in a given year inevitably caused estimates to deviate from the 'true' carbon budget, i.e. the annual budget based on half-hourly measurements during 365 days. Accuracy increased with total sample frequency, and blocking days caused larger deviations than sampling randomly or regularly spaced single days. Restricting sampling to only one season led to strongly biased estimates. The sampling effort required for a reliable estimate of the annual carbon balance of lichens based on simple extrapolations of diel carbon budgets is impracticably large. For example, a relatively large sample of 52 random days yielded an estimate within 25% of the true annual budget with only 60% certainty. Supporting approaches are therefore suggested, in particular extrapolating diel budgets using 'weather response types', possibly aided by diel activity patterns from chlorophyll fluorescence, or modelling CO2 exchange as a function of climatic conditions. [ABSTRACT FROM AUTHOR]

Published

2010

2. Diel and seasonal courses of ambient carbon dioxide concentration and their effect on productivity of the epilithic lichen Lecanora muralis in a temperate, suburban habitat.

Author

Lange, Otto L. and Green, T. G. Allan

Subjects

*CARBON dioxide, *CARBON compounds, *LICHENS, *LECANORA, *PHOTOSYNTHESIS, *HYDRATION

Abstract

Ambient CO2 concentration (together with CO2 exchange and microclimate) was recorded every 30 min for 15 months for Lecanora muralis growing in the Botanical Garden Würzburg (Germany, northern Bavaria), a habitat on the outskirts of the city. Annual mean CO2 was around 17 ppm higher than the global average reported for the time of measurement (361 ppm; 1995/96), and daily values ranged from 317 to 490 ppm. Diel courses of CO2 could be classified into three different types. Type A, when CO2 levels rose overnight and then fell strongly to below global levels during the day, which predominated in the summer (about 75% of days); Type B, irregular diel courses occurred during all seasons with often very rapid changes apparently due to advective CO2 transport; Type C, CO2 concentration was typically almost stable at generally between c. 330 and 430 ppm which predominated in the winter (63% of days). Under controlled conditions, CO2 saturation of net photosynthesis (NP) of L. muralis at optimal hydration and light occurred at around 1000 ppm. NP was also affected by low CO2 at limiting light and thallus water contents. Based upon these data, we estimated the improvement of NP of L. muralis due to transient increase of ambient CO2 (as compared with the global average) for one selected combination of environmental factors (nocturnal dew or frost). This combination is an important source of water for the lichen, resulting in 40% of its annual production and, especially in these situations, photosynthesis was increased by high ambient CO2 in the early morning under prevailing Type A conditions. After dew activation, light compensation point of NP occurred at an average concentration of 413 ppm and diel maxima of NP at 402 ppm. This allows a rough estimate that the transiently elevated CO2 increased the photosynthetic gain of the lichen after dew of 7%, or an improvement to its annual carbon balance of about 3%. Conditions, especially interrelationships between lichen hydration, light and CO2 are so complex that we are not yet able to extend our estimates to other environmental situations of photosynthetic activity of L. muralis. [ABSTRACT FROM AUTHOR]

Published

2008

3. Lichen carbon gain under tropical conditions: water relations and CO2 exchange of Lobariaceae species of a lower montane rainforest in Panama.

Author

Lange, Otto L., Budel, Burkhard, Meyer, Angelika, Zellner, Hans, and Zotz, Gerhard

Subjects

*LICHEN ecology, *RAIN forests, *LICHENS, *CRYPTOGAMS, *DYE plants, *LOBARIACEAE

Abstract

Diel (24-h) time courses of microclimate, water relations, and CO2 exchange were measured under quasi-natural conditions at a forest edge in a lower montane, tropical rainforest in Panama for six Lobariaceae (Lobaria crenulata, L. dissecta, Pseudocyphellaria aurata, P. intricata, Sticta sublimbata, S. weigelii). Responses to experimentally controlled water content WC), photosynthetic photon fluence rate (PPFR), and temperature were studied in most detail with P. aurata. Photosynthesis was well adapted to high temperatures, and all species exhibited ‘shade plant’ characteristics with low light compensation points and low light saturation. Lobaria and Pseudocyphellaria species suffered from a strong depression of net photosynthesis (NP) at suprasaturating WC; suprasaturation depression was less in cyphellate Sticra species. Photosynthetic capacity correlated with thallus nitrogen concentration, and maximal NP rates of the cyanobacterial Sticta species was 4 to 5 times higher than that of the green algal Lobaria species. However, high rates of NP were uncommon and brief events under natural conditions; the different environmental factors were rarely optimal simultaneously. Similar to earlier observations with other rainforest lichens, NP ceased during the period of highest irradiation on most days due to desiccation. During moist periods low light often limited carbon fixation, and high thallus hydration was often detrimental to NP. In spite of these limitations the maximal daily integrated net photosynthetic carbon income (ΣNP) was quite high especially for the Sticta species [17.3 and 24.1 mgC (gC)-1 day-1 for S. sublimbata and S. weigelii, respectively]. High nocturnal carbon loss, due to high night temperatures and continuous hydration, resulted in frequent negative diel carbon balances (EC) in all species. The average nocturnal carbon loss amounted to 83 and 70% ΣNP for P. aurata and P. intricata, respectively and to 64 and 59% of ΣNP for S. sublimbata and S. weigelii, respectively. Their average diel ΣC was as high as 3.7 and 5.3 mgC (gC)-1 day-1. In contrast, ΣC was much lower for the other species, it amounted to only 0.18 mgC (gC)-1 day-1 for L. crenulata. Thus, the Sticta species stood out amongst the species studied for their most successful adaptation of photosynthetic productivity to the habitat conditions m the lower montane rainforest. [ABSTRACT FROM AUTHOR]

Published

2004

4. What is a ‘phycolichen’? Differences and changes in the meaning of an old lichenological term

Author

Lange, Otto L. and Wagenitz, Gerhard

Subjects

*LICHENS, *CYANOBACTERIA, *ALGAE

Abstract

The term ‘phycolichens’ has recently been introduced as a synonym for ‘green algal lichens’ i.e. those having phycobionts as their primary autotrophic partner, which is analogous to the contracted term ‘cyanolichens’. However, a study of the history of the term ‘Phycolichenes’ leads us to suggest that this term should not be applied because of considerable ambiguities in past usage and the possibility of confusion. The term was first created by E. Fries in 1831, and was used later by Massalongo as a taxon for homoiomerous cyanobacterial lichens. With this, or similar meanings, it remained in use until the middle of the 20thCentury. Diels (A. Engler's Syllabus der Pflanzenfamilien, Gebr. Borntr., Berlin, 1936) defined the same expression Phycolichenes as lichens with Phycomycetes as mycobiont, and this definition can still be found in recent literature. If a shortened term for green algal lichens is needed then we suggest ‘chlorolichens’ as a better counterpart to cyanolichens. [Copyright &y& Elsevier]

Published

2003

5. Macrolichens of Montane Rain Forests in Panama, Province Chiriquí.

Author

Büdel, Burkhard, Meyer, Angelika, Salazar, Noris, Zellner, Hans, Zotz, Gerhard, and Lange, Otto L.

Published

2000

6. An Unusual Growth Form of Cladonia Furcata: the Trampling-Resistant Primary Thallus Colonizing a Paved Pathway.

Author

Lange, Otto L., Allan Green, T.G., and Türk, Roman

Published

1998

7. Vernon Ahmadjian introduced the term 'chlorolichen'.

Author

Lange, Otto L. and Wagenitz, Gerhard

Subjects

*LICHENS, *BOTANICAL nomenclature, *BOTANY terminology, *CRYPTOGAMS

Abstract

Cites Vernon Ahmadjian's introduction of the word "chlorolichen" as a counterpart for cyanolichens. Use of the terms for the two function groups of lichens with either green algae or with cyanobacteria as their main photobionts; Ahmadjian's use of the term in an article and in his book "The Lichen Symbiosis."

Published

2004