Articles citing this paper
Soil factors that influence the fruiting of Tuber melanosporum (black truffle)
L. G. García-Montero A C , M. A. Casermeiro B , J. Hernando B and I. Hernando B
+ Author Affiliations
- Author Affiliations
A Dept of Forestry Engineering, E.T.S.I. Montes, Universidad Politécnica de Madrid, Ciudad Universitaria, Madrid, E-28040 Spain.
B Dept of Soil Science, Universidad Complutense de Madrid, Facultad de Farmacia, Ciudad Universitaria, Madrid E-28040, Spain.
C Corresponding author. Email: luisgonzaga.garcia@upm.es
Australian Journal of Soil Research 44(8) 731-738 https://doi.org/10.1071/SR06046
Submitted: 13 April 2006 Accepted: 3 October 2006 Published: 29 November 2006
29 articles found in Crossref database.
Soil factors that favour the production ofTuber melanosporumcarpophores over other truffle species: a multivariate statistical approach
García-Montero L. G.,
Díaz P.,
Martín-Fernández S., Casermeiro M. A.
Acta Agriculturae Scandinavica, Section B - Plant Soil Science. 2008 58(4). p.322
Historical summary and reference list of Spanish truffle (Tuberspp.) research (1962–2006)
García‐Montero L. G.,
Pascual C.,
García‐Cañete J.,
Grande M. A., Diaz P.
New Zealand Journal of Crop and Horticultural Science. 2007 35(1). p.129
An improved method compatible with metagenomic analyses to extract genomic DNA from soils in Tuber melanosporum
orchards
Antony-Babu S.,
Murat C.,
Deveau A.,
Le Tacon F.,
Frey-Klett P., Uroz S.
Journal of Applied Microbiology. 2013 115(1). p.163
Edible Ectomycorrhizal Mushrooms (2012)
Bacterial communities associated with mushrooms in the Qinghai-Tibet Plateau are shaped by soil parameters
Xing Rui,
Zhang Hai-Chen,
Gao Qing-bo,
Zhang Fa-qi,
Chi Xiao-Feng, Chen Shi-long
International Microbiology. 2022 26(2). p.231
Tuber indicum shapes the microbial communities of ectomycorhizosphere soil and ectomycorrhizae of an indigenous tree (Pinus armandii)
Li Qiang,
Zhao Jian,
Xiong Chuan,
Li Xiaolin,
Chen Zuqin,
Li Ping,
Huang Wenli, Kothe Erika
PLOS ONE. 2017 12(4). p.e0175720
Black Truffles Affect Quercus aliena Physiology and Root-Associated nirK- and nirS-Type Denitrifying Bacterial Communities in the Initial Stage of Inoculation
Kang Zongjing,
Li Xiaolin,
Li Yan,
Ye Lei,
Zhang Bo,
Zhang Xiaoping,
Penttinen Petri, Gu Yunfu
Frontiers in Microbiology. 2022 13
Ecological patterns of Tuber melanosporum and different Quercus Mediterranean forests: Quantitative production of truffles, burn sizes and soil studies
García-Montero Luis G.,
Manjón José L.,
Pascual Cristina, García-Abril Antonio
Forest Ecology and Management. 2007 242(2-3). p.288
Chinese white truffles shape the ectomycorrhizal microbial communities of Corylus avellana
Yang Mei,
Zou Jie,
Liu Chengyi,
Xiao Yujun,
Zhang Xiaoping,
Yan Lijuan,
Ye Lei,
Tang Ping, Li Xiaolin
Annals of Microbiology. 2019 69(5). p.553
Problems of using pines in Tuber melanosporum culture: soils and truffle harvest associated with Pinus nigra and P. sylvestris
García-Montero L. G.,
Manjón J. L.,
Martín-Fernández S., Di Massimo G.
Agroforestry Systems. 2007 70(3). p.243
New data on ectomycorrhizae and soils of the Chinese truffles Tuber pseudoexcavatum and Tuber indicum, and their impact on truffle cultivation
García-Montero Luis G.,
Di Massimo Gabriella,
Manjón José L., García-Abril Antonio
Mycorrhiza. 2008 19(1). p.7
Mycorrhization of Quercus acutissima with Chinese black truffle significantly altered the host physiology and root-associated microbiomes
Zhang Xiaoping,
Ye Lei,
Kang Zongjing,
Zou Jie,
Zhang Xiaoping, Li Xiaolin
PeerJ. 2019 7 p.e6421
Selection of the Most Suitable Tree Species for Truffle Cultivation Using Fuzzy VIKOR and Fuzzy AHP
Tsiaras Stefanos, Dragoslis Athanasios
International Journal of Environmental Sustainability and Green Technologies. 2020 11(1). p.74
Impact of active soil carbonate and burn size on the capacity of the rockrose Cistus laurifolius to produce Tuber melanosporum carpophores in truffle culture
García-Montero Luis G.,
Casermeiro Miguel Á.,
Manjón José L., Hernando Isabel
Mycological Research. 2007 111(6). p.734
Soil fungal communities reflect aspect-driven environmental structuring and vegetation types in a Pannonian forest landscape
Geml József
Fungal Ecology. 2019 39 p.63
Statistical patterns of carbonates and total organic carbon on soils of Tuber rufum and T. melanosporum (black truffle) brûlés
García-Montero L. G.,
Valverde-Asenjo I.,
Díaz P., Pascual C.
Soil Research. 2009 47(2). p.206
Production and marketing of Tuber floridanum – ecology and gastronomic value of a recently described truffle species
Freiberg Joice Aline,
Grebenc Tine,
Strojnik Lidija,
Meireles Leonardo Arocha,
Jiménez Maximiliano Segundo Escalona,
Richards Neila Silvia Pereira dos Santos,
Ogrinc Nives, Antoniolli Zaida Inês
Scientia Agricola. 2023 80
Niche construction by two ectomycorrhizal truffle species (Tuber aestivum and T. melanosporum)
García-Montero Luis G.,
Monleón Vicente J.,
Valverde-Asenjo Inmaculada,
Menta Cristina, Kuyper Thomas W.
Soil Biology and Biochemistry. 2024 189 p.109276
Tuber melanosporum drives the symbiosis with Castanea sativa seedlings under greenhouse conditions and high calcium levels
Álvarez-Lafuente Amaya,
Benito-Matías Luis F.,
Uscola Mercedes, Suz Laura M.
Symbiosis. 2023 89(3). p.273
Effect of active carbonate, exchangeable calcium, and stoniness of soil onTuber melanosporumcarpophore production
García‐Montero L. G.,
Casermeiro M. A.,
Hernando I., Hernando J.
New Zealand Journal of Crop and Horticultural Science. 2007 35(1). p.139
The Uneven Distribution of Mating Type Genes in Natural and Cultivated Truffle Orchards Contributes to the Fructification of Tuber indicum
Li Qiang,
Fu Yu,
Sun Qun,
Sourzat Pierre,
Yang Mei,
Liu Chengyi,
Tan Hao,
Ye Lei,
Zou Jie,
Wu Chenguang,
Zhang Bo, Li Xiaolin
Mycobiology. 2018 46(1). p.64
Influence of pH on in vitro mycelial growth in three Japanese truffle species: Tuber japonicum, T. himalayense, and T. longispinosum
Nakano Shota,
Kinoshita Akihiko,
Obase Keisuke,
Nakamura Noritaka,
Furusawa Hitomi,
Noguchi Kyotaro, Yamanaka Takashi
Mycoscience. 2020 61(2). p.58
Can We Discover Truffle’s True Identity?
Hamzić Gregorčič Staša,
Strojnik Lidija,
Potočnik Doris,
Vogel-Mikuš Katarina,
Jagodic Marta,
Camin Federica,
Zuliani Tea, Ogrinc Nives
Molecules. 2020 25(9). p.2217
First report of European truffle ectomycorrhiza in the semi-arid climate of Saudi Arabia
Bajaj Seema R.,
Marathe Sandesh J.,
Grebenc Tine,
Zambonelli Alessandra, Shamekh Salem
3 Biotech. 2021 11(1).
Calcareous amendments to soils to eradicate Tuber brumale from T. melanosporum cultivations: a multivariate statistical approach
Valverde-Asenjo Inmaculada,
García-Montero Luis G.,
Quintana Asunción, Velázquez Javier
Mycorrhiza. 2009 19(3). p.159
Edible Ectomycorrhizal Mushrooms (2012)
Tuber borchii Shapes the Ectomycorrhizosphere Microbial Communities of Corylus avellana
Li Xiaolin,
Zhang Xiaoping,
Yang Mei,
Yan Lijuan,
Kang Zongjing,
Xiao Yujun,
Tang Ping,
Ye Lei,
Zhang Bo,
Zou Jie, Liu Chengyi
Mycobiology. 2019 47(2). p.180
Problems of using rockroses in Tuber melanosporum culture: soil and truffle harvest associated with Cistus laurifolius
García-Montero L. G.,
Pascual C.,
García-Abril A., García-Cañete J.
Agroforestry Systems. 2007 70(3). p.251
Calcareous amendments in truffle culture: A soil nutrition hypothesis
García-Montero Luis G.,
Quintana Asunción,
Valverde-Asenjo Inmaculada, Díaz Paloma
Soil Biology and Biochemistry. 2009 41(6). p.1227
