Nová „masožravá“ literatura pro rok 2022

datum:: 2022-12-27
autor:: Adam Veleba

Každý rok připravuje RNDr. Lubomír Adamec seznam literatury o masožravých rostlinách. Nejinak tomu je i letos. Vědecký zájem o masožravé rostliny je značný, témata různorodá. Zájem je o popis rostlin samotných, z pohledu taxonomického, ale i z pohledu anatomického či fyziologického, kde se výzkum zaměřuje samozřejmě na struktury a funkce pastí.

Vychází i ekologické studie, kde jsou masožravé rostliny analyzovány jako součásti společenstev, často ohrožených, ale jsou i studie specifické pro rostliny vytvářející fytotelmata. Nejčastějším příkladem jsou asi cisterny bromélií, ale i láčkovky či špirlice představují drobné vodní nádržky, byť s poněkud extrémním obsahem. Voda v láčkách je vlastně roztok enzymů a dalších látek primárně určených k rozkladu kořisti a návštěvníci, kteří se kořistí stát nechtějí, musí být schopni se jim ubránit. Vznikají tak velmi zajímavá miniaturní společenstva, která vědcům slouží jako experimentální prostředí pro ekologické studie. Dostatečně jednoduché na to, aby bylo možné je reálně popsat a pochopit, a přitom dostatečně komplexní, aby jejich výzkum přinesl zajímavé výsledky.

Další oblastí, která se značně rozmáhá, je biomimetika – unikátní vlastnosti pastí masožravek (například nesmáčivost či extrémní kluzkost) jsou studovány za účelem replikace v technice. Neušpinitelné povrchy? Nádrže a hadice, ze kterých vylijete vše do poslední kapky? Kdoví, třeba takové materiály budou v budoucnosti dostupné právě díky napodobení struktur známých u masožravek. Zapomenout nesmím ani na výzkum farmaceutický. Látky, které rostliny produkují jako sekundární metabolity, na ochranu vlastních buněk či za jiným účelem, mají často perspektivní účinky i proti patogenům lidským.

Mě osobně letos asi nejvíce zaujala studie zabývající se tučnicí obecnou (Pinguicula vulgaris) ve Střední Evropě (Majeský et al. 2022). Je to snad ode mě trochu lokální patriotismus, ale cením si toho, že na podporu tučnice české jako samostatného taxonu (zda se jedná o druh či poddruh, ponechám stranou, na tom už tolik nesejde) existuje čím dál více důkazů, včetně zde publikovaných genetických dat. Výsledky ukazují, že P. bohemica je nejen odlišná od běžné P. vulgaris, ale liší se i od P. vulgaris var. bicolor, se kterou sdílí podobnost ve zbarvení květů. Je to zajímavé, ale P. bohemica je geneticky nejbližší populace tučnic z jižního Polska, provizorně označená jako P. “polonica”. Zdá se, že tyto dva taxony jsou pozůstatkem většího rozšíření v minulosti, z nějž do dnešní doby přežily jen tyto ostrůvkovitě oddělené populace. Téma snad bude mít pokračování i v budoucím výzkumu.

Závěrem děkuji Luboši Adamcovi za poskytnutou literaturu a připomínám, že všechny články jsou pro členy Darwiniany dostupné v naší knihovně.

Seznam letošní literatury:

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Carmesin C. F., Fleischmann A. S., Klepsch M. M., Westermeier A. S., Speck T., Jansen S., Poppinga S., 2021. Structural gradients and anisotropic hydraulic conductivity in the enigmatic eel traps of carnivorous corkscrew plants (Genlisea spp.). Am. J. Bot. 108: 2356-2370.

Chaudhuri M., Paul A. K., Pal A., 2021. Production of an extracellular neutral protease by Bacillus aerius UB02 endophytic to carnivorous plant Utricularia stellaris. J. Environ. Biol. 42: 955-963.

Fleischmann A., 2021. Aldrovanda vesiculosa L. neu in der Oberpfalz, und eine Übersicht zur natürlichen und neophytischen Verbreitung der Art in Deutschland. Ber. Bayer. Bot. Ges. 91: 267-285.

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Hanh V. T. H., Truong M. X., Tan T. Q., Nguyen T. B., 2021. Nature-inspired slippery polymer thin film for ice-repellent applications. Bioinspir. Biomimet. Nanobiomater. 10: 107-113.

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Makowski W., Królicka A., Tokarz B., Miernicka K., Kolton A., Pięta Ł., Malek K., Ekiert H., Szopa A., Tokarz K. M., 2021. Response of physiological parameters in Dionaea muscipula J. Ellis teratomas transformed with rolB oncogene. BMC Plant Biol. 21: e564.

Mandal S., Maity S., Banerjee D., 2021. Antioxidative compounds from the secreted metabolome of strain 'Mucor irregularis isolate dro2'-an endophyte of the carnivorous plant Drosera burmannii. Appl. Biochem. Microbiol. 57 S1: S88-S97.

Mansur M., Brearly F. Q., Esseen P. J., Rode-Margono E. J., Tarigan M. R. M., 2021. Ecology of Nepenthes clipeata on Gunung Kelam, Indonesian Borneo. Plant Ecol. Divers. 14: 195-203.

Miranda V. F. O., Silva S. R., Reut M. S., Dolsan H., Stolarczyk P., Rutishauser R., Płachno B. J., 2021. Historical perspective of bladderworts (Utricularia): Traps, carnivory and body architecture. Plants 10: e2656.

Ravee R., Baharin A., Cho W. T., Ting T. Y., Goh H. H., 2021. Protease activity is maintained in Nepenthes ampullaria digestive fluids depleted of endogenous proteins with compositional changes. Physiol. Plant. 173: 1967-1978.

Shiyan N. N. 2021. [Modern distribution of Aldrovanda vesiculosa L. in Ukraine (Generalization of data in connection with preparation of materials for the fourth edition of the “Red Data Book of Ukraine“).] In Russ. In: Tikhomirov V. N. (ed.): [Topical issues of study and conservation of phyto- and mycobiot.] In Russ. Belarus State Univ., Minsk, Belarus, pp. 227-231.

Sun L. Y., Wang Y., Zhang X. X., Bian F. K., Shang L. R., Zhao Y. J., Sun W. J., 2021. Bio-inspired self-replenishing and self-reporting slippery surfaces from colloidal co-assembly templates. Chem. Engin. J. 426: e131641.

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Vanda H., Mustafa N. R., Verpoorte R., Klinkhamer P. G. L., Choi Y. H., 2021. Natural deep eutectic solvents present in plant exudates? A case study on the saps of Drosera species. Verpoorte R., Witkamp G. J., Choi Y. H. (Eds.), Book Series: Advances in Botanical Research, Vol. 97, pp. 253-269.

Wang L. X., Pan P., Yan S. X., Dong S. Y., 2021. Contact angle of Nepenthes slippery zone: results from measurement and model analysis. Bioinspir. Biomimet. Nanobiomater. 10: 114-122.

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Zhuang K., Yang X. L., Huang W., Dai Q. W., Wang X. L., 2021. Efficient bubble transport on bioinspired topological ultraslippery surfaces. ACS Appl. Mater. Interf. 13: 61780-61788.

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Arellano A. A., Coon K. L., 2022. Bacterial communities in carnivorous pitcher plants colonize and persist in inquiline mosquitoes. Anim. Microbiome 4: e13.

Baleeiro P. C., Jobson R. W., 2022. Redescription of Utricularia singeriana and a new species Utricularia baliboongarnang Baleeiro & RWJobson for north-eastern Western Australia. Telopea 25: 63-73.

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Bittleston L. S., Benson E. L., Bernardin J. R., Pierce N. E., 2022. Characterization and comparison of convergence among Cephalotus follicularis pitcher plant-associated communities with those of Nepenthes and Sarracenia found worldwide. Front. Plant Sci. 13: e887635.

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Chalk P. M., Hu H.-W. A., 2022. Carnivorous plants: the role of 15N in tracing nitrogen dynamics in the prey–plant–soil–aquatic continuum. Aust. J. Bot. 70: 103-113.

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Ghosh D., Sarkar A., Basu A. G., Roy S., 2022. Effect of plastic pollution on freshwater flora: A meta-analysis approach to elucidate the factors influencing plant growth and biochemical markers. Water Res. 225: e119114.

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Goddard E. L., Naczi R., Walker K., Millett J., Wood P. J., 2022. First records of the pitcher plant mite Sarraceniopus gibsoni (Nesbitt, 1954) (Astigmata: Histiostomatidae) in Europe. BioInvas. Rec. 11: 62–69.

Gonella P. M., Sano P. T., Rivadavia F., Fleischmann A., 2022. A synopsis of the genus Drosera (Droseraceae) in Brazil. Phytotaxa 553: 1–76.

Goyal A., Bittleston L. S., Leventhal G. E., Lu L., Cordero O. X., 2022. Interactions between strains govern the eco-evolutionary dynamics of microbial communities. eLIFE 11: e74987.

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Li J. F., Liu Z. L., 2022. Complete chloroplast genome sequence of the carnivorous herb Pinguicula alpina (Lentibulariaceae). Mitochondr. DNA Part B-Resources 7: 1061-1062.

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Liu H.-W., Chiang W.-Y., Huang Y.-H., Huang C.-Y., 2022. The inhibitory effects and cytotoxic activities of the stem extract of Sarracenia purpurea against melanoma cells and the SsbA protein. Plants (Basel) 11: e3164.

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Płachno B. J., Kapusta M., Stolarczyk P., Bogucka-Kocka A., 2022. Spatiotemporal distribution of homogalacturonans and hemicelluloses in the placentas, ovules and female gametophytes of Utricularia nelumbifolia during pollination. Cells 11: e475.

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