Sunday, July 5, 2026

[Botany • 2026] Nymphoides crucioides, N. miniata, N. thailandica, ... • Integration of Cytogenetics and Morphology for the Taxonomic Revision of Nymphoides (Menyanthaceae) in Thailand including Five New Species

 


Nymphoides miniata Noppornch. & Suwanph.,

in Suwanphakdee, Nopporncharoenkul et Hodkinson, 2026. 

Highlights: 
• A full revision of Thai Nymphoides based on morphology and cytogenetic evidence is provided.
• Cytogenetic and morphological evidence supports Nymphoides species boundaries.
• Ten Nymphoides species are described in Thailand, including five new endemic species
Abstract 
A taxonomic revision of Nymphoides (Menyanthaceae) in Thailand was undertaken using cytogenetics and morphology. Specimens were collected throughout Thailand. Cytogenetic analyses were conducted on living collections. The morphological characters used in the descriptions of all taxa were measured from living specimens, which were subsequently maintained for ex-situ conservation. We provide a new generic description, a key to species, and descriptions of all species. Line drawings are provided for the five new species and color photographic illustrations are provided for all taxa. Herbarium voucher specimens were prepared and deposited in Thai herbaria. Ten species are recognized in Thailand, including five new species described in the present study for the first time, namely Nymphoides chumphonense, N. crucioides, N. miniata, N. thailandica and N. thungyaiense. Cytogenetic evidence supports the proposed species boundaries of Thai Nymphoides.
 
Keywords: Aquatic plants, Terrarium plants, Tropical plants, Wetland


Nymphoides chumphonense Suwanph. 
Nymphoides crucioides Suwanph. & Hodk. 



Nymphoides miniata Noppornch. & Suwanph. 


Nymphoides thungyaiense Suwanph & Noppornch. 
 Nymphoides thailandica Suwanph. 

 
Chalermpol Suwanphakdee, Nattapon Nopporncharoenkul and Trevor R. Hodkinson. 2026. Integration of Cytogenetics and Morphology for the Taxonomic Revision of Nymphoides (Menyanthaceae) in Thailand including Five New Species. Aquatic Botany. 207, 104044. DOI: doi.org/10.1016/j.aquabot.2026.104044 

ðŸŒļ āļĄāļŦāļēāļ§ิāļ—āļĒāļēāļĨัāļĒāđ€āļāļĐāļ•āļĢāļĻāļēāļŠāļ•āļĢ์ āļžāļšāļšัāļ§āļšāļēāļŠāļ™ิāļ”āđƒāļŦāļĄ่āļ‚āļ­āļ‡āđ‚āļĨāļ 5 āļŠāļ™ิāļ” āļˆāļēāļāđāļŦāļĨ่āļ‡āļ™้āļģāļ‚āļ­āļ‡āļ›āļĢāļ°āđ€āļ—āļĻāđ„āļ—āļĒ āļš่āļ‡āļŠี้āļ–ึāļ‡āļ„āļ§āļēāļĄāļĢ่āļģāļĢāļ§āļĒāļ—āļĢัāļžāļĒāļēāļāļĢāļžืāļŠāļ‚āļ­āļ‡āđ„āļ—āļĒ āđāļĨāļ°āļ„āļ§āļēāļĄāļŠāļģāļ„ัāļāļ‚āļ­āļ‡āļ‡āļēāļ™āļ§ิāļˆัāļĒāļ§ิāļ—āļĒāļēāļĻāļēāļŠāļ•āļĢ์āļžื้āļ™āļāļēāļ™ āļ‚āļ­āļ‡āļŠāļ–āļēāļšัāļ™āļāļēāļĢāļĻึāļāļĐāļē💚
āļ™ัāļāļ§ิāļˆัāļĒ āļĄāļ āļ™āļģāđ‚āļ”āļĒ āļĢāļĻ.āļ”āļĢ. āđ€āļ‰āļĨิāļĄāļžāļĨ āļŠุāļ§āļĢāļĢāļ“āļ ัāļāļ”ี āļˆāļēāļāļ āļēāļ„āļ§ิāļŠāļēāļžāļĪāļāļĐāļĻāļēāļŠāļ•āļĢ์ āļ„āļ“āļ°āļ§ิāļ—āļĒāļēāļĻāļēāļŠāļ•āļĢ์ āļĄāļŦāļēāļ§ิāļ—āļĒāļēāļĨัāļĒāđ€āļāļĐāļ•āļĢāļĻāļēāļŠāļ•āļĢ์ āļ„้āļ™āļžāļšāļšัāļ§āļšāļēāļŠāļ™ิāļ”āđƒāļŦāļĄ่āļ‚āļ­āļ‡āđ‚āļĨāļāļˆāļģāļ™āļ§āļ™ 5 āļŠāļ™ิāļ” āđ‚āļ”āļĒāļ•ีāļžิāļĄāļž์āđ€āļœāļĒāđāļžāļĢ่āļāļēāļĢāļ„้āļ™āļžāļšāļ™ี้āđƒāļ™āļ§āļēāļĢāļŠāļēāļĢ Aquatic Botany āļ‰āļšัāļšāļ›ี 2026 āļāļēāļĢāļ„้āļ™āļžāļšāļ„āļĢั้āļ‡āļ™ี้āđ€āļ›็āļ™āļāļēāļĢāļšูāļĢāļ“āļēāļāļēāļĢāļ§ิāļˆัāļĒāļĢ่āļ§āļĄāļĢāļ°āļŦāļ§่āļēāļ‡āļŦāļ™่āļ§āļĒāļ‡āļēāļ™āļ‹ึ่āļ‡āļ›āļĢāļ°āļāļ­āļšāļ”้āļ§āļĒ āļ”āļĢ. āļ“ัāļāļžāļĨ āļ™āļžāļžāļĢāđ€āļˆāļĢิāļāļุāļĨ āļ™ัāļāļ§ิāļˆัāļĒ āļˆāļēāļāļ­āļ‡āļ„์āļāļēāļĢāļžิāļžิāļ˜āļ ัāļ“āļ‘์āļ§ิāļ—āļĒāļēāļĻāļēāļŠāļ•āļĢ์āđāļŦ่āļ‡āļŠāļēāļ•ิ (āļ­āļžāļ§āļŠ) āđāļĨāļ° Prof. Dr. Trevor R. Hodkinson āļˆāļēāļāļ—āļĢิāļ™ิāļ•ี้āļ„āļ­āļĨāđ€āļĨāļˆ āļĄāļŦāļēāļ§ิāļ—āļĒāļēāļĨัāļĒāđāļŦ่āļ‡āļāļĢุāļ‡āļ”ัāļšāļĨิāļ™ āļ›āļĢāļ°āđ€āļ—āļĻāđ„āļ­āļĢ์āđāļĨāļ™āļ”์ āđ‚āļ”āļĒāđ€āļ›็āļ™āļāļēāļĢāļšูāļĢāļ“āļēāļāļēāļĢāļ§ิāļˆัāļĒāļĢ่āļ§āļĄāļ—āļēāļ‡āļ”้āļēāļ™āļ­āļ™ุāļāļĢāļĄāļ§ิāļ˜āļēāļ™āļžืāļŠ āļŠัāļ“āļāļēāļ™āļ§ิāļ—āļĒāļēāđāļĨāļ°āđ€āļ‹āļĨāļĨ์āļ§ิāļ—āļĒāļē 
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āļĢāļĻ.āļ”āļĢ. āđ€āļ‰āļĨิāļĄāļžāļĨ āļŠุāļ§āļĢāļĢāļ“āļ ัāļāļ”ี  āļāļĨ่āļēāļ§āļ§่āļē āļžืāļŠāļŠāļุāļĨāļšัāļ§āļšāļē (Nymphoides) āļ§āļ‡āļĻ์ Menyanthaceae āđ€āļ›็āļ™āļžืāļŠāļ™้āļģāļ—ี่āļĄีāļāļēāļĢāđƒāļŠ้āļ›āļĢāļ°āđ‚āļĒāļŠāļ™์āļ—āļēāļ‡āļ”้āļēāļ™āļāļēāļĢāđƒāļŠ้āđ€āļ›็āļ™āļžืāļŠāļ›āļĢāļ°āļ”ัāļš āđāļĨāļ°āļœัāļāļžื้āļ™āļš้āļēāļ™ āđƒāļ™āļ›āļĢāļ°āđ€āļ—āļĻāđ„āļ—āļĒāđ€āļ„āļĒāļĄีāļĢāļēāļĒāļ‡āļēāļ™ 5 āļŠāļ™ิāļ” āļˆāļēāļāļāļēāļĢāļĻึāļāļĐāļēāļ§ิāļˆัāļĒāļžāļšāļ§่āļē āļšัāļ§āļšāļēāļ‚āļ­āļ‡āļ›āļĢāļ°āđ€āļ—āļĻāđ„āļ—āļĒāļĄีāļ—ั้āļ‡āļŦāļĄāļ” 10 āļŠāļ™ิāļ” āđāļĨāļ°āđ€āļ›็āļ™āļžืāļŠāļŠāļ™ิāļ”āđƒāļŦāļĄ่āļ‚āļ­āļ‡āđ‚āļĨāļ 5 āļŠāļ™ิāļ” āđāļ•่āļĨāļ°āļŠāļ™ิāļ”āļĄีāļĻัāļāļĒāļ āļēāļžāđƒāļ™āļāļēāļĢāļ™āļģāđ„āļ›āđƒāļŠ้āļ›āļĢāļ°āđ‚āļĒāļŠāļ™์āļ—āļēāļ‡āļ”้āļēāļ™āļāļēāļĢāđƒāļŠ้āđ€āļ›็āļ™āļžืāļŠāļ›āļĢāļ°āļ”ัāļšāļŠāļ§āļ™āļ‚āļ§āļ” āļŠāļ§āļ™āļāļĢāļ°āļˆāļ āđāļĨāļ°āļ•ู้āđ„āļĄ้āļ™้āļģ āļ­ีāļāļ—ั้āļ‡āļĒัāļ‡āđ€āļ™้āļ™āđƒāļŦ้āļ•āļĢāļ°āļŦāļ™ัāļāļ–ึāļ‡āļāļēāļĢāļ­āļ™ุāļĢัāļāļĐ์āđāļŦāļĨ่āļ‡āļ™้āļģāļˆืāļ” āļ‹ึ่āļ‡āđ€āļ›็āļ™āļ—ี่āļ­āļĒู่āļ‚āļ­āļ‡āļžืāļŠāļŠāļ™ิāļ”āđ€āļŦāļĨ่āļēāļ™ี้ āļš่āļ‡āļŠี้āļ–ึāļ‡āļ„āļ§āļēāļĄāļĢ่āļģāļĢāļ§āļĒāļ—āļĢัāļžāļĒāļēāļāļĢāļžืāļŠāļ‚āļ­āļ‡āļ›āļĢāļ°āđ€āļ—āļĻāđ„āļ—āļĒ āđāļĨāļ°āļ„āļ§āļēāļĄāļŠāļģāļ„ัāļāļ‚āļ­āļ‡āļ‡āļēāļ™āļ§ิāļˆัāļĒāļ§ิāļ—āļĒāļēāļĻāļēāļŠāļ•āļĢ์āļžื้āļ™āļāļēāļ™ 
āļšัāļ§āļšāļē 5 āļŠāļ™ิāļ”āļ™ี้āļ›āļĢāļ°āļāļ­āļšāļ”้āļ§āļĒ 
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1. āļŠāļēāļĒāļ•ิ้āļ‡ āļŦāļĢืāļ­ āļŠāļēāļĒāļ•ิ่āNymphoides chumphonense Suwanph. 
 āļžāļšāđƒāļ™āđāļŦāļĨ่āļ‡āļ™้āļģāļˆืāļ”āļ•ื้āļ™āđ† āļšāļĢิāđ€āļ§āļ“ āļˆ. āļŠุāļĄāļžāļĢ āđāļĨāļ°āļŠุāļĢāļēāļĐāļŽāļĢ์āļ˜āļēāļ™ี  āđ‚āļ”āļĒāļ•ั้āļ‡āļŠื่āļ­āļ•āļēāļĄ āļˆ. āļŠุāļĄāļžāļĢ āļŠāļ–āļēāļ™āļ—ี่āļžāļšāļ•ัāļ§āļ­āļĒ่āļēāļ‡āđ€āļ›็āļ™āļ—ี่āđāļĢāļ āļžืāļŠāļŠāļ™ิāļ”āļ™ี้āļĄีāļāļēāļĢāđƒāļŠ้āļ›āļĢāļ°āđ‚āļĒāļŠāļ™์āđ€āļ›็āļ™āļœัāļāļžื้āļ™āļš้āļēāļ™ āđ‚āļ”āļĒāļิāļ™āļŠāļ”āļัāļšāļ™้āļģāļžāļĢิāļ āđāļĨāļ°āļĄีāļ‚āļēāļĒāđƒāļ™āļ•āļĨāļēāļ” āļ–ูāļāļˆัāļ”āļŠāļ–āļēāļ™āļ°āđƒāļāļĨ้āļŠูāļāļžัāļ™āļ˜ุ์ (Endangered: EN) āđ€āļ™ื่āļ­āļ‡āļˆāļēāļāļāļēāļĢāļŠูāļāđ€āļŠีāļĒāđāļŦāļĨ่āļ‡āļ—ี่āļ­āļĒู่ āđāļĨāļ°āļāļēāļĢāļĢุāļāļĢāļēāļ™āļ‚āļ­āļ‡āļ™้āļģāđ€āļ„็āļĄ āļ­ีāļāļ—ั้āļ‡āļ•ิāļ”āļœāļĨāđāļĨāļ°āđ€āļĄāļĨ็āļ”āđ„āļ”้āļ™้āļ­āļĒ
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2. āļšัāļ§āļšāļēāļŦัāļ§āļĨูāļāļĻāļĢ Nymphoides crucioides Suwanph. & Hodk. 
 āļžāļšāđƒāļ™āđāļŦāļĨ่āļ‡āļ™้āļģāļˆืāļ”āļ•ื้āļ™āđ† āđāļĨāļ°āđƒāļ™āļ™āļēāļ‚้āļēāļ§ āļšāļĢิāđ€āļ§āļ“ āļˆ. āļ›āļĢāļēāļˆีāļ™āļšุāļĢี āđāļĨāļ°āļĒāļ°āļĨāļē āđ‚āļ”āļĒāļ•ั้āļ‡āļŠื่āļ­āļ•āļēāļĄāļĨัāļāļĐāļ“āļ°āļ”āļ­āļāļ—ี่āļ„āļĨ้āļēāļĒāļāļēāļāļšāļēāļ—  āļžืāļŠāļŠāļ™ิāļ”āļ™ี้āļĄีāļĻัāļāļĒāļ āļēāļžāđƒāļ™āļāļēāļĢāļ™āļģāđ„āļ›āđƒāļŠ้āđ€āļ›็āļ™āđ„āļĄ้āļ›āļĢāļ°āļ”ัāļšāļŠāļ§āļ™āļ‚āļ§āļ” āļŠāļ§āļ™āļāļĢāļ°āļˆāļ āđāļĨāļ°āļ•ู้āđ„āļĄ้āļ™้āļģ āļĄีāļ—ั้āļ‡āļ—ี่āļĄีāļŸāļ­āļĢ์āļĄāļ™้āļģāđāļĨāļ°āļŸāļ­āļĢ์āļĄāļšāļ āļ–ูāļāļˆัāļ”āļŠāļ–āļēāļ™āļ°āđƒāļāļĨ้āļŠูāļāļžัāļ™āļ˜ุ์āļ­āļĒ่āļēāļ‡āļĒิ่āļ‡ (Critically Endangered - CR) āđ€āļ™ื่āļ­āļ‡āļˆāļēāļāļāļēāļĢāļŠูāļāđ€āļŠีāļĒāđāļŦāļĨ่āļ‡āļ—ี่āļ­āļĒู่ āđāļĨāļ°āļāļēāļĢāđƒāļŠ้āļŠāļēāļĢāļāļģāļˆัāļ”āļ§ัāļŠāļžืā 
.
3. āļšāļēāļˆิ๋āļ§ Nymphoides miniata Noppornch. & Suwanph. 
 āđ€āļ›็āļ™āļšัāļ§āļšāļēāļ—ี่āļĄีāļ‚āļ™āļēāļ”āđ€āļĨ็āļāļ—ี่āļŠุāļ”āļ‚āļ­āļ‡āđ‚āļĨāļ āļžāļšāđƒāļ™āđāļŦāļĨ่āļ‡āļ™้āļģāļˆืāļ”āļ•ื้āļ™āđ† āđāļĨāļ°āđƒāļ™āļ™āļēāļ‚้āļēāļ§ āļšāļĢิāđ€āļ§āļ“ āļˆ. āļ›āļĢāļēāļˆีāļ™āļšุāļĢี āđ‚āļ”āļĒāļ•ั้āļ‡āļŠื่āļ­āļ•āļēāļĄāļĨัāļāļĐāļ“āļ°āļ”āļ­āļāļ—ี่āļĄีāļ‚āļ™āļēāļ”āđ€āļĨ็āļāļ—ี่āļŠุāļ”āļ‚āļ­āļ‡āđ‚āļĨāļ āļžืāļŠāļŠāļ™ิāļ”āļ™ี้āļĄีāļĻัāļāļĒāļ āļēāļžāđƒāļ™āļāļēāļĢāļ™āļģāđ„āļ›āđƒāļŠ้āđ€āļ›็āļ™āđ„āļĄ้āļ›āļĢāļ°āļ”ัāļšāļŠāļ§āļ™āļ‚āļ§āļ” āļŠāļ§āļ™āļāļĢāļ°āļˆāļ āđāļĨāļ°āļ•ู้āđ„āļĄ้āļ™้āļģ āļĄีāļ—ั้āļ‡āļ—ี่āļĄีāļŸāļ­āļĢ์āļĄāļ™้āļģāđāļĨāļ°āļŸāļ­āļĢ์āļĄāļšāļ āļ–ูāļāļˆัāļ”āļŠāļ–āļēāļ™āļ°āđƒāļāļĨ้āļŠูāļāļžัāļ™āļ˜ุ์āļ­āļĒ่āļēāļ‡āļĒิ่āļ‡ (Critically Endangered - CR) āđ€āļ™ื่āļ­āļ‡āļˆāļēāļāļāļēāļĢāļŠูāļāđ€āļŠีāļĒāđāļŦāļĨ่āļ‡āļ—ี่āļ­āļĒู่ āđāļĨāļ°āļāļēāļĢāđƒāļŠ้āļŠāļēāļĢāļāļģāļˆัāļ”āļ§ัāļŠāļžืā 
.
4. āļšāļēāļŠāļĒāļēāļĄ Nymphoides thailandica Suwanph. 
āļšัāļ§āļšāļēāļ—ี่āļĄีāļ‚āļ™āļēāļ”āđ€āļĨ็āļ āļžāļšāđƒāļ™āđāļŦāļĨ่āļ‡āļ™้āļģāļˆืāļ”āļ•ื้āļ™āđ† āđāļĨāļ°āđƒāļ™āļ™āļēāļ‚้āļēāļ§ āļšāļĢิāđ€āļ§āļ“ āļˆ. āļ›āļĢāļēāļˆีāļ™āļšุāļĢี āļāļĢāļ°āļšี่ āđāļĨāļ°āļĒāļ°āļĨāļē āđ‚āļ”āļĒāļ•ั้āļ‡āļŠื่āļ­āļ•āļēāļĄāļ›āļĢāļ°āđ€āļ—āļĻāđ„āļ—āļĒ āļžืāļŠāļŠāļ™ิāļ”āļ™ี้āļĄีāļĻัāļāļĒāļ āļēāļžāđƒāļ™āļāļēāļĢāļ™āļģāđ„āļ›āđƒāļŠ้āđ€āļ›็āļ™āđ„āļĄ้āļ›āļĢāļ°āļ”ัāļšāļŠāļ§āļ™āļ‚āļ§āļ” āļŠāļ§āļ™āļāļĢāļ°āļˆāļ āđāļĨāļ°āļ•ู้āđ„āļĄ้āļ™้āļģ āļĄีāļ—ั้āļ‡āļ—ี่āļĄีāļŸāļ­āļĢ์āļĄāļ™้āļģāđāļĨāļ°āļŸāļ­āļĢ์āļĄāļšāļ āļ–ูāļāļˆัāļ”āļŠāļ–āļēāļ™āļ°āđƒāļāļĨ้āļŠูāļāļžัāļ™āļ˜ุ์āļ­āļĒ่āļēāļ‡āļĒิ่āļ‡ (Critically Endangered - CR) āđ€āļ™ื่āļ­āļ‡āļˆāļēāļāļāļēāļĢāļŠูāļāđ€āļŠีāļĒāđāļŦāļĨ่āļ‡āļ—ี่āļ­āļĒู่ āđāļĨāļ°āļāļēāļĢāđƒāļŠ้āļŠāļēāļĢāļāļģāļˆัāļ”āļ§ัāļŠāļžืā 
.
5. āļ”āļēāļ§āļĢāļ”āļē Nymphoides thungyaiense Suwanph & Noppornch. 
āđ€āļ›็āļ™āļšัāļ§āļšāļēāļ—ี่āļĄีāļ‚āļ™āļēāļ”āļ„่āļ­āļ™āļ‚้āļēāļ‡āđƒāļŦāļ่ āļžāļšāđƒāļ™āđāļŦāļĨ่āļ‡āļ™้āļģāļˆืāļ”āļ•ื้āļ™āđ† āļšāļĢิāđ€āļ§āļ“ āļˆ. āļ•āļēāļ āđ‚āļ”āļĒāļ•ั้āļ‡āļŠื่āļ­āļ•āļēāļĄāđāļŦāļĨ่āļ‡āļ—ี่āļžāļš āļ–ูāļāļˆัāļ”āļŠāļ–āļēāļ™āļ°āđƒāļāļĨ้āļŠูāļāļžัāļ™āļ˜ุ์āļ­āļĒ่āļēāļ‡āļĒิ่āļ‡ (Critically Endangered - CR) āđ€āļ™ื่āļ­āļ‡āļˆāļēāļāļžāļšāļ›āļĢāļ°āļŠāļēāļāļĢāđ€āļžีāļĒāļ‡āđāļŦāļĨ่āļ‡āđ€āļ”ีāļĒāļ§  

[Entomology • 2026] Neophlugiolopsis? nigrivertex • One New Species of the Genus Neophlugiolopsis Pan & Bian, 2024 (Orthoptera: Tettigoniidae: Meconematinae) from Guangxi, China

 

Neophlugiolopsis? nigrivertex  
 Xiong, Chen & Shi, 2026
 

The genus Neophlugiolopsis was established by Pan & Bian (2024), with Neophlugiolopsis longiprocera Pan & Bian, 2024 as the type species. It resembles Phlugiolopsis Zeuner, 1940, Paraphlugiolopsis Bian & Shi, 2014, Aphlugiolopsis Wang, Liu & Li, 2015, Pseudophlugiolopsis Wang, Zhou & Chang, 2020 and Guangxia An, Chen & Shi, 2023, but can be distinguished from them mainly by the following characters: tegmina reach the middle of abdomen, and posterior area of male tenth abdominal tergite is strongly produced posteriorly into a long process. 
 
In this paper, a new species from Guangxi, China is described and tentatively assigned to the genus Neophlugiolopsis. All type specimens are deposited in the Museum of Hebei University.

Neophlugiolopsis? nigrivertex sp. nov., male:
A–B. head and pronotum: A. dorsal view; B. lateral view; C–F. apex of abdomen: C. ventral view; D. latero-ventral view; E. dorsal view; F. lateral view.

Neophlugiolopsis? nigrivertex sp. nov., male in habitat.

Neophlugiolopsisnigrivertex sp. nov.
 Chinese name: éŧ‘éĄķæ–°åŸčž― 

Etymology. The specific name refers to the black dorsal surface of the vertex. It is derived from Latin nigri-, meaning “black”, and vertex, meaning “top of the head”.


ZIJIAN XIONG, KEDA CHEN and FUMING SHI. 2026. One New Species of the Genus Neophlugiolopsis Pan & Bian, 2024 (Orthoptera: Tettigoniidae: Meconematinae) from Guangxi, China.  Zootaxa. 5845(1); 197-200. DOI: doi.org/10.11646/zootaxa.5845.1.12 [2026-07-03]


[Botany • 2026] Homalomena randii (Araceae) • A New Species of Araceae from West Kalimantan, Borneo


Homalomena randii  

in Irsyam  et Hariri, 2026.

Abstract
Homalomena randii is described and illustrated here as a new species of Araceae from West Kalimantan, Indonesia. The new species is assigned to the Cyrtocladon Supergroup based on a combination of morphological characters, including typically hastate leaf blades with pronounced posterior lobes; staminate flowers consisting of (3–)4(–5) truncate stamens, each surmounted by a large, flat, cream-colored connective; and the presence of conspicuous resin droplets secreted between the staminate flowers. This discovery underscores the strong potential for further discoveries of Homalomena species in underexplored regions of Indonesian Borneo, highlighting the continuing importance of botanical exploration in the area.



Homalomena randii 
 

 
Irsyam A.S.D. and Hariri M.. 2026. Homalomena randii, A New Species of Araceae from West Kalimantan, Borneo. Rheedea. 36(2), e1203. DOI: doi.org/10.22244/rheedea.36.1203 [30.06.2026]

[Botany • 2026] Passiflora albopurpurea (Passifloraceae) • A New Species of Passiflora Subg. Passiflora discovered in the central montane forest of Peru

 

 Passiflora albopurpurea ChÃĄvez-Corcuera,  
 
in ChÃĄvez-Corcuera, CastaÃąeda, Gutierrez et Ocampo, 2026. 

 Abstract
A new species of Passiflora sect. Granadillastrum belonging to P. subg. Passiflora discovered in the montane forests of Peru is described and illustrated. This new taxon, Passiflora albopurpurea, differs from P. crassifolia by having entire 3–5-nerved leaves, corona in 6 or 7 series, sepals, petals and inner row of corona white and a glabrous ovary. A taxonomic discussion and a distribution map are provided, along with keys for the identification of morphologically related species occurring in Peru. This new species is rare, due to its restricted occurrence with a small population size and should be considered under category Endangered (EN). 

Chanchamayo, Endemism, Passifonflower, Oxapampa, Stipulata, series Menispermifoliae, supersection Stipulata, Eudicots
 
 Passiflora albopurpurea ChÃĄvez-Corcuera. A) Fertile branch; B) Senescent flower; C) Stipules; D) Petiole glands; E) Flower; F) Inner view of the flower.
Photographs A-B R. VÃĄsquez; C-F G. ChÃĄvez-Corcuera.

Passiflora albopurpurea ChÃĄvez-Corcuera sp. nov.


GONZALO CHÁVEZ-CORCUERA, ROXANA CASTAÑEDA, HAROL GUTIERREZ and JOHN OCAMPO. 2026. Passiflora albopurpurea, A New Species of sect. Granadillastrum (Passifloraceae, subg. Passiflora) discovered in the central montane forest of Peru.  Phytotaxa. 741(1); 107-114. DOI: doi.org/10.11646/phytotaxa.741.1.10 [2026-02-12] 

Saturday, July 4, 2026

[Botany • 2025] Corydalis shiyomiensis (Papaveraceae) • A New Species from Arunachal Pradesh, India


Corydalis shiyomiensis  

in Khanal, Sivaranjani, Singpho, Sarkar, Kasaju, LidÃĐn, Rai et Kumar, 2025. 
 
Abstract
Corydalis shiyomiensis is described as a new species from Arunachal Pradesh, India, in the Eastern Himalaya Biodiversity Hotspot. Morphologically, this species resembles Corydalis petrophila and Corydalis leptocarpa; however, it can be easily differentiated based on both vegetative and floral characters. Detailed description along with diagnosis, photo plates, morphological comparison with the allied species, notes on phenology and habitat, as well as a conservation assessment are provided herewith.

Angiosperm, Eastern Himalayan Biodiversity Hotspot, New to science, Taxonomy, Eudicots
 

Corydalis shiyomiensis


MADHUSUDHAN KHANAL, S. SIVARANJANI, JASENG SINGPHO, SHUVADIP SARKAR, SAROJ KUMAR KASAJU, MAGNUS LIDÉN, SANTOSH KUMAR RAI and DEVENDRA KUMAR. 2025. Corydalis shiyomiensis (Papaveraceae), A New Species from Arunachal Pradesh, India.  Phytotaxa. 721(1); 87-92. DOI: doi.org/10.11646/phytotaxa.721.1.6 [2025-10-03] 

Friday, July 3, 2026

[Paleontology • 2026] Zhengheornis buyu • Jurassic Avialan reveals stepwise Evolution of Bony Tail in Birds


Zhengheornis buyu
Wang, Tang, Deng, Dong, L. Xu, X. Xu, M. Lin,  Du, G. Lin, Chen, Zhang & Zhou, 2026 
 

Abstract
The evolutionary assembly of the flight-adapted bird body plan encompasses some of the most profound morphological changes in terrestrial vertebrate history. Beyond feathered wings, the short pygostyle-bearing tail has been pivotal to the clade’s ecological success. However, transition from the long bony tail to the short pygostyle-bearing tail remains a mystery, hindered by the scarcity of early branching avialans with transitional morphologies. Here, we report on a new avialan, Zhengheornis buyu, gen. et sp. nov., from the Upper Jurassic of southeastern China, suggesting that the vertebral reduction and shortening preceded pygostyle fusion in early avialan evolution, providing critical evidence for the stepwise evolution of the bird tail. Z. buyu is smaller than all known non-pygostylian paravians, expanding the species and body size diversity of stemward taxa.

Systematics
Theropoda Marsh, 1881  
Maniraptora Gauthier, 1986  
Avialae Gauthier, 1986 


Zhengheornis buyu gen. et sp. nov. 

Etymology: Zhenghe” (Mandarin), referring to Zhenghe Country, where the holotype specimen was found; “ornis,” bird (Greek); “buyu,” unexpected (Mandarin), from the ancient Chinese book Guoyu, referring to the unique tail and pelvic morphologies preserved in this species. 

Holotype: Institute of Vertebrate Paleontology and Paleoanthropology (IVPP) V34168, an articulated and partially complete skeleton (most limb bones are preserved as molds) with feathers preserved on a slab and counter slab (Fig. 1, figs. S1 and S2, and table S1). 

Locality and horizon: Near Yangyuan Village, Zhenghe Country, Nanping City, Fujian Province; Upper Jurassic, Nanyuan Formation [Tithonian stage]. 

Diagnosis: IVPP V34168 is distinguishable from all other paravians in the following combination of characters (*denotes probable autapomorphy): short tail comprising 15 vertebrae that is shorter than the hindlimb (combined length of femur, tibia, and metatarsal III)*; middle and posterior caudal vertebrae less elongate (opposite to the condition in other long tailed avialans); final two caudal vertebrae box-like*; manual phalanx III-1 shorter than III-2, opposite to the condition in Archaeopteryx and Fujianvenator [the three manual digits of maniraptorans are here identified as I, II, and III, as in (Tamura, et al. 2011)]; manual phalanx III-3 50% longer than III-2 (the length ratio greater than 2 in Anchiornis and Archaeopteryx); slender ischium that has a knob-like, distally located obturator process and lacks the posterior process*; short fibula that terminates far proximal to the ankle; metatarsal I that articulates at the distal third of metatarsal II; metatarsal II that ends far proximal to metatarsal III trochlea; short hallux with an ungual that is smaller than that of other pedal digits; and robust digit II that has the longest non-ungual (II-2) and ungual pedal phalanges.


 
Min Wang, Jianrong Tang, Ke Deng, Liping Dong, Liming Xu, Xing Xu, Min Lin, Honggang Du, Ganmin Lin, Runsheng Chen, Chi Zhang and Zhonghe Zhou. 2026. Jurassic Avialan reveals stepwise Evolution of Bony Tail in Birds. Science Advances. 12(27); DOI: doi.org/10.1126/sciadv.aeb5202 [1 Jul 2026]

[Herpetology • 2026] Dendropsophus liliae • A New Species of Dendropsophus (Anura: Hylidae) of the D. ruschii group from the Atlantic Forest in Serra da Mantiqueira, Minas Gerais, Brazil


Dendropsophus liliae
Santana, Shepard, Carvalho, MÞller, Assis & Feio, 2026 

 
Abstract
The Dendropsophus ruschii species group currently comprises two species with disjunct distributions between the Atlantic Forest and the Amazon. Based on an integrative approach combining morphological, acoustic, and molecular data (mtDNA barcoding), we describe a new species from the Serra da Mantiqueira, Minas Gerais, Brazil. Dendropsophus liliae sp. nov. is diagnosed by its small size, rounded digital discs, presence of a calcar appendage, dark red iris, and a distinct white stripe from the snout to the upper eyelid. This discovery expands the known diversity of the group and represents its most inland record within the Atlantic Forest.

Live specimens of Dendropsophus liliae sp. nov. from Serra do Brigadeiro (type locality).
 (A) Holotype adult male (MZUFV20707), (B) paratype adult male (ZUFMS-AMP7816), (C–F) unvouchered adult males.
Photographs by D.J. Santana (A–B) and C.L. Assis (C–F).
Published under a CC BY 4.0 license.

Dendropsophus liliae sp. nov.  
   
Diagnosis.—We assigned the new species to the genus Dendropsophus and to the D. ruschii species group based on phylogenetic results (see Results below). In addition, the new species morphologically resembles other species of the D. ruschii group, especially D. ruschii, which exhibit white marks on the head and flanks. Dendropsophus liliae sp. nov. can be distinguished from its congeners within the D. ruschii group by the combination of the following features: (1) small size, adult males 16.0–19.5 mm SVL; (2) dominant frequency of the advertisement call from 6030 to 6630 Hz; (3) rounded discs on fingers and toes; (4) presence of sparse small granules on the dorsum; (5) presence of a calcar appendage; (6) eyes dark red; (7) overall dorsal coloration brown; (8) nuptial pad poorly developed; (9) wide head HW/SVL = 0.30–0.34; (10) a well-marked white line running from the posterior edge of the upper eyelid to the tip of the snout.

Etymology.— The specific epithet liliae is a patronym honoring Prof. Lília Maria Fraga Tostes (in memoriam) for her extensive contributions to biology education, her friendship, and her mentorship of DJS during his undergraduate studies. Prof. Lília, affectionately known as “Lilinha,” was a dear friend and a charismatic teacher widely known by the citizens of MuriaÃĐ, Minas Gerais (the hometown of DJS). Her kindness and charisma inspired many students to pursue careers in the biological sciences, and several of her former students are now professors who continue to carry her lessons forward.

 
Diego J. Santana, Donald B. Shepard, Priscila S. Carvalho, MÃĄrcia M. P. MÞller, Clodoaldo L. Assis and Renato N. Feio. 2026. A New Species of Dendropsophus (Anura, Hylidae) of the D. ruschii group from the Atlantic Forest in Serra da Mantiqueira, Minas Gerais, Brazil. PLoS One. 21(6): e0351087. DOI: doi.org/10.1371/journal.pone.0351087 [June 23, 2026]

Thursday, July 2, 2026

[Botany • 2026] Valeriana umbellifera (Caprifoliaceae) • A New saxicolous endemic Taxon from Central Chile Mountains

 

Valeriana umbellifera A. CÃĄdiz-VÃĐliz, A.E. Villarroel & Nic. García, 

CÃĄdiz-VÃĐlizGarcíaVillarroel et ZÃšÃąiga-Acevedo, 2026. 

Abstract
Valeriana, comprissing approximately 436 species, represents a successful evolutionary radiation within Dipsacales, with an important center of diversification in South America. In Chile, 46 species are currently recognized, 41.3% of which are endemic; two are reported as Endangered and one is probably extinct. The genus is mainly represented by herbaceous species, a calyx that is entire or modified into a pappus, a gamopetalous and pentamerous corolla, an inferior ovary, and an achene as indehiscent dry fruit. During botanical surveys in mountainous areas of Central Chile, specimens of a Valeriana restricted to crevices of steep rocky walls were found. Examination of herbarium material and relevant literature confirmed that it corresponds to a previously undescribed species, here named Valeriana umbellifera. This taxon is characterized by its perennial herbaceous habit, strictly saxicolous ecology, fleshy and glossy leaves arranged in a rosette, and a capituliform inflorescence with an umbel-like appearance. Its phylogenetic position was evaluated using molecular markers within the framework of previous analyses of Valeriana species from the southern Andes. According to IUCN criteria, we propose that the species be categorized as Endangered (EN) due to its restricted distribution, fragmented populations, and threats. The restricted distribution and ecological specialization of this new species underscore the conservation importance of rocky microhabitats in Central Chile, which are increasingly threatened by human activities. 

Taxonomy, Andean flora, IUCN Red List, Mediterranean hotspot, Plant conservation, Phylogenetics, rock outcrops, Eudicots

Valeriana umbellifera.
(A) Habitat; (B) Rhizome; (C) Habit -Cerro Poqui-; (D) Stem; (E) Basal leaves; (F) Detail of basal leave; (G) Petiole; (H) Upper leaves; (I) Bracteoles; (J) Capituliform inflorescence; (K, L) Detail of flowers (female); (M) Dry inflorescence; (N) Achene.
Photographs by A.E. Villarroel, N. García and A. CÃĄdiz-VÃĐliz.


Valeriana umbellifera A. CÃĄdiz-VÃĐliz, A.E. Villarroel & Nic. García, sp. nov.


ARÓN CÁDIZ-VÉLIZ, NICOLÁS GARCÍA, ALEJANDRO E. VILLARROEL, PAULA ZÚÑIGA-ACEVEDO. 2026. Valeriana umbellifera (Caprifoliaceae): A New saxicolous endemic Taxon from Central Chile mountains.  Phytotaxa. 741(1); 57-70. DOI: doi.org/10.11646/phytotaxa.741.1.6 [2026-02-12]

Tuesday, June 30, 2026

[Paleontology • 2026] Antusuchus rionegrinus • A New early peirosaurid terrestrial Crocodile (Notosuchia: Peirosauridae) from La Buitrera (Candeleros Formation), Río Negro, Argentina


Antusuchus rionegrinus 
FernÃĄndez-Dumont, Apesteguía, Pol, Bona, PÃĐrez Mayoral & Vega, 2026
 

ABSTRACT
Notosuchia represents one of the most morphologically diverse groups of Mesozoic crocodyliforms and was particularly abundant in the Cretaceous of Gondwana. Among them, Peirosauridae comprises medium-sized terrestrial predators widely distributed across southern continents during the Late Cretaceous. Here we describe a new peirosaurid crocodyliform, Antusuchus rionegrinus gen. et sp. nov., from the Cenomanian Candeleros Formation of the NeuquÃĐn Basin (Río Negro Province, Argentina). The material, recovered from the La Buitrera Palaeontological Area, includes cranial and postcranial remains. Micro-computed tomography and anatomical comparisons reveal a unique combination of characters, including a short rostrum, an elongated palatal depression adjacent to the maxillary tooth row, a rod-shaped jugal bar, and a prominent sagittal crest. The dentition is ziphodont and includes a hypertrophied third maxillary tooth, consistent with predatory habits. Phylogenetic analyses recover Antusuchus rionegrinus as the earliest-branching member of Peirosauridae, sister to all remaining peirosaurids. This discovery provides new insights into the early evolution of peirosaurids and highlights the importance of the La Buitrera fauna for understanding mid-Cretaceous terrestrial ecosystems and the diversification of notosuchian crocodyliforms.

KEYWORDS: Peirosauridae, La Buitrera, Cretaceous, Notosuchia, Candeleros Formation, NeuquÃĐn Basin

Systematic Palaeontology
Crocodyliformes Hay, 1930
Notosuchia Gasparini, 1971 [Ruiz et al., 2021]

Peirosauria Leardi et al., 2024
Peirosauridae Gasparini, 1982 [Leardi et al., 2024]




Antusuchus rionegrinus gen. et sp. nov.
 
Etymology: Antu means sun in the MapudungÚn language. Suchus is Latinised from Greek Souchos in references to the Egyptian crocodile-headed god Sebek. Rionegrinus named after Río Negro Province.

Holotype: MPCA PV 1294 (Figures 37), articulated skull and jaws.

 
Geographical and geological proceeding: The material was found in rocks representing the last 50 m of the Candeleros Formation deposit, at the base of the levels containing the La Buitrera fauna. The site corresponds to the base of the ‘CaÃąadÃģn de Las Tortugas’ site, within the La Buitrera locality, one of the localities of the LBPA.

Diagnosis: A notosuchian crocodyliform characterised by the following unique combination of characters (autapomorphies indicated with asterisk): third premaxillary tooth larger than the fourth; large elongated depression close to the medial margin of the mid maxillary toothrow*; rostrum shorter than 50% of the total skull length; maxillary contribution to antorbital fossa as dorsoventrally high as the maxillary lateral surface between antorbital fossa and alveolar margin and extending posteriorly up to the posterior end of the antorbital fossa*; antorbital fossa restricted to posteroventral corner of antorbital fenestra; lacrimal extensively sutured to jugal; subtriangular ...


  
María Lucila FernÃĄndez-Dumont, SebastiÃĄn Apesteguía, Diego Pol, Paula Bona, Joaquín PÃĐrez Mayoral and Nahuel Vega. 2026. A New early peirosaurid terrestrial Crocodile (Notosuchia) from La Buitrera (Candeleros Formation), Río Negro, Argentina. Historical Biology: An International Journal of Paleobiology. DOI: doi.org/10.1080/08912963.2026.2683112 [23 Jun 2026]

  

[Botany • 2026] Sinningia pampeana (Gesneriaceae) • A New Species from the Pampa's rocky outcrops in southern Brazil and Uruguay

 

Sinningia pampeana G.E.Ferreira and Chautems, 
  
in Ferreira, Spiazzi, Barbieri, Chautems et AraÚjo, 2026.

Abstract
Sinningia pampeana is a new rupicolous species from the rocky outcrops of the Pampa biome in southern Brazil and Uruguay. Morphological analyses based on herbarium material, field observations, and detailed illustrations support its recognition as a distinct species from Sinningia sellovii. Sinningia pampeana is restricted to rock outcrops within the Pampa grasslands, where populations are threatened by grazing, habitat degradation, and potential mining activities. Given the current uncertainty regarding its distribution and sampling completeness, a preliminary conservation assessment of ‘Data Deficient' (DD) is proposed under IUCN criteria.

Keywords: Gesneriaceae, new species, Pampa biome, rocky outcrops, Sinningia

Sinningia pampeana sp. nov. (A) Corolla, frontal view, (B) inflorescence, detail, (C) trichome structure, (D) ovary, transverse section showing the nectary consisting of two separate dorsal glands, (E) ovary, style, and nectary, (F) calyx and corolla showing stamens, (G) coherent anthers, detail, (H) corolla throat, detail showing stamens and anthers, (I) immature capsule, (J) habit.
Drawn from Jarenkow and Garcia 3607.

Morphology of Sinningia pampeana sp. nov.
 (A) Habitat on rocky outcrop, (B) inflorescence in the shrub vegetation, (C) inflorescence, (D) habit, (E) axillary flowers, (F) close-up of the calyx and corolla.
Photo by A. Chautems.

Sinningia pampeana G.E.Ferreira and Chautems sp. nov. 

Diagnosis: Sinningia pampeana differs from S. sellovii by its consistently red, horizontally oriented corollas (versus whitish pink to lilac or yellowish and pendent corollas), included anthers (versus exserted), a slightly bilabiate limb with enlarged dorsal lobes (versus a corolla tubular with subequal lobes), and the presence of only one to ca four flowers per bract axil (versus 3–9 flowers).

Etymology: The specific epithet ‘pampeana' refers to the Pampa biome, characterized by grasslands and rocky outcrops across southern Brazil, Uruguay, and Argentina. The name derives from the Quechua word ‘pampa', meaning ‘plain' or ‘open field'.


Gabriel Emiliano Ferreira, Daniel Alves Spiazzi, Pedro Henrique Sonsim Barbieri, Alain Chautems and AndrÃĐa Onofre AraÚjo. 2026. Sinningia pampeana sp. nov. (Gesneriaceae) from the Pampa's rocky outcrops in southern Brazil and Uruguay. Nordic Journal of Botany. DOI: doi.org/10.1002/njb.05231 [24 June 2026]

[Botany • 2026] Syngonium turipachense (Araceae) • A New Species of Syngonium sect. Syngonium from Chiapas, Mexico


Syngonium turipachense 

in JimÃĐnez, PÃĐrez-Farrera, Croat, Martínez-Martínez, MÃĐndez, Hentrich et Aguilar-Rodríguez, 2026.

 
The genus Syngonium is represented in Mexico by ten species, seven of which are registered for the state of Chiapas. During fieldwork between 2020 and 2025 in Berriozabal, Chiapas, we discovered an undescribed species of Syngonium sect. Syngonium that is morphologically similar to S. neglectum, but differing from that species in having one or two inflorescences per axil, glaucous stems and spathe tube, a spathe blade almost twice as long as the staminate portion of the spadix, staminate flowers retuse at the apex, glaucous immature infructescence and the spathe not persistent in mature fruits.

Aroid, Berriozabal, Reserva La Pera, Syngonium angustatum, Syngonium neglectum, Monocots



Syngonium turipachense


PEDRO DÍAZ JIMÉNEZ, MIGUEL ÁNGEL PÉREZ-FARRERA, THOMAS B. CROAT, MAURICIO GERÓNIMO MARTÍNEZ-MARTÍNEZ, GASPAR MORENO MÉNDEZ, HEIKO HENTRICH, PEDRO A. AGUILAR-RODRÍGUEZ. 2026. A New Species of Syngonium sect. Syngonium (Araceae) from Chiapas, Mexico.  Phytotaxa. 750(3); 207-215. DOI: doi.org/10.11646/phytotaxa.750.3.6 [2026-04-07]


Monday, June 29, 2026

[Botany • 2026] Platylepis avaratraensis (Orchidaceae) • A New Species from northern Madagascar and its taxonomic position in Goodyerinae


Platylepis avaratraensis Hermans & Nusb., 

in Hermans, Ranirison, Havinga, Iharivolana et Nusbaumer, 2026. 

 Abstract  
Taxonomy and molecular research in the genera of the subtribe Goodyerinae (Orchidaceae) from Madagascar and adjacent islands of the western Indian Ocean are discussed. The characteristics of Goodyera R.Br. and Platylepis A.Rich. are compared, their history is presented, and the respective species currently accepted for the region are detailed. A new species, Platylepis avaratraensis Hermans & Nusb., is described from the Sava region in northern Madagascar. It is most similar to P. humicola (Schltr.) Schltr. but differs by the wider leaves, shorter floral bracts, flower colour, narrower sepals and a lip with distinct calli. The distribution and ecology of the new species are discussed and its conservation status is provisionally assessed as “Endangered” following the IUCN Red List Categories and Criteria.

KEYWORDS: conservation, Goodyera, Goodyerinae, Madagascar, new species, ORCHIDACEAE, Platylepis, taxonomy

Platylepis avaratraensis Hermans & Nusb.
A: plant in its habitat; B: inflorescence with buds, flowers and young fruits; C: flower, front view with an insect (potential pollinator of the species); D: leaves; E: flowers, ovary and bracts from side view; F: fruits
 [A–D: Nusbaumer et al. 5055; E: Iharivolana & Havinga 47; F: Donati et al. 61] 
[Photos: A–D: L. Nusbaumer; E: A. Havinga; F: Iharivolana]

Platylepis avaratraensis Hermans & Nusb., sp. nov. 

Diagnosis — Platylepis avaratraensis is distinct from all other Madagascar species of the genus, and especially from P. humicola, by its long erect stem, narrowly elliptic to sub-ovate leaves (l/w ratio: 2.5–3/1), long inflorescence with a laxly flowered rachis in the apical third, floral bracts about as long as the pedicellate ovary, the rachis stem, ovary and exterior of the sepals and petals densely hirsute to villose with fine white hairs, the pale flowers with an orange-pink base to the lip, the obscurely 3-lobed lip with strongly involute margins, but without a spur, scattered thorn-like calli along the base, the curving epichile, ending in a fleshy, strongly recurved bilobed appendage, and the distinctly bifid rostellum.

Etymology — The specific epithet refers to the North (Avaratra in Malagasy) indicating its distribution in the northern part of Madagascar.


Johan Hermans, Patrick Ranirison, Alessandra Havinga, Iharivolana, Louis Nusbaumer. 2026. Platylepis avaratraensis (Orchidaceae), A New Species from northern Madagascar and its taxonomic position in Goodyerinae. Candollea. 81(1); 1-6. DOI: doi.org/10.15553/c2026v811a1 (17 June 2026)   

Les recherches taxonomiques et molÃĐculaires sur les genres de la sous-tribu Goodyerinae de Madagascar et des ÃŪles adjacentes de l'ocÃĐan Indien occidental sont discutÃĐes. Les caractÃĐristiques de Goodyera R.Br. et Platylepis A.Rich. sont comparÃĐes, et leur histoire est prÃĐsentÃĐe. Les espÃĻces actuellement acceptÃĐes par les auteurs pour la rÃĐgion sont dÃĐtaillÃĐes. Une nouvelle espÃĻce d'orchidÃĐe, Platylepis avaratraensis Hermans & Nusb., est dÃĐcrite dans la rÃĐgion de Sava, au nord de Madagascar. Elle est illustrÃĐe et comparÃĐe à d'autres espÃĻces du genre. Elle est la plus proche de P. humicola (Schltr.) Schltr., mais se distingue par ses feuilles plus larges, ses bractÃĐes florales plus courtes, la couleur de ses fleurs, des sÃĐpales plus ÃĐtroits et un labelle avec des callositÃĐs distinctes. La distribution et l'ÃĐcologie de la nouvelle espÃĻce sont discutÃĐes et son statut de conservation prÃĐliminaire est ÃĐvaluÃĐ comme «En danger» suivant les CatÃĐgories et CritÃĻres de la Liste rouge de l'UICN.

[Entomology • 2026] Scymnus tshunsii • The First termitophilous Ladybird Beetle (Coleoptera: Coccinellidae) from Microcerotermes Nests in Thailand

 

  Scymnus (Pullus) tshunsii Seki, Liang & Maruyama, 

in SekiLiang , Hasin, Chiu et Maruyama, 2026.

Termite nests host diverse symbiotic arthropods (termitophiles), many of which exhibit specialized morphological and behavioral adaptations to life within termite colonies. While numerous beetle families include well-known termitophiles, an association with termites has not yet been recorded in the family Coccinellidae (ladybird beetles). Here, we report the discovery of Scymnus (Pullus) tshunsii Seki, Liang & Maruyama, sp. n., based on adults and larvae collected from nests of Microcerotermes crassus Snyder, 1934, in Chiang Mai and Nakhon Ratchasima, Thailand, with additional adults captured at light traps. Although the adult morphology is typical for free-living Scymnini, the larva exhibits a highly unusual, soft-bodied, glabrous body form closely resembling termite workers - an apparent case of convergent evolution also seen in termitophilous rove beetles, scarabs, and phorid flies. The stark contrast between adult and larval morphology suggests stage-specific adaptations, with larvae more intimately integrated into the termite nest environment. Collecting adults at light traps indicates nocturnal dispersal, likely to locate new host colonies. This discovery represents the first confirmed termitophilous ladybird beetle and indicates that termite nests may support previously unrecognized ecological associations within Coccinellidae.
 
Keywords: New species, predators, Scymnini, taxonomy, termite

  Scymnus (Pullus) tshunsii sp. n.
1 – dorsal view; 2 – ventral view; 3 – lateral view;
4 – alive, lateral view; 5 – alive, ventral view.

Habitat of Scymnus (Pullus) tshunsii sp. n.
 32–34 – Scymnus (Pullus) tshunsii sp. n. (32 – adult; 33–34 – larvae); 35 – soldier of Microcerotermes crassus Snyder, 1934;
36 – forest environment; 37 – mound of Microcerotermes crassus Snyder, 1934.
 
Scymnus (Pullus) tshunsii Seki, Liang & Maruyama sp. n. 
 
Diagnosis. Scymnus (Pullus) tshunsii sp. n. is similar in external coloration to many species of Scymnini (e.g., Sasaji, 1971; Chen et al., 2015a, b; Wang & Chen, 2022), but can be readily distinguished by the structure of the genitalia. This species is placed in the subgenus Pullus Mulsant, 1846 based on the combination of the following characters: antennae composed of 11 antennomeres, prosternal process with well-developed lateral carinae, abdominal postcoxal lines recurved and complete, and female genitalia with a distinct infundibulum (Chen et al., 2015a). Chen et al. (l.c.) divided the subgenus Scymnus (Pullus) from mainland China and Taiwan into S. hingstoni, S. subvillosus, S. impexus, S. perdere, and S. sodalis groups. The new species lacks a prominent dorsal keel on the penis guide of ...

Etymology. The species is named after Tshun-SÃŪ, the son of Wei-Ren Liang, the second author. His name, meaning “sowing in spring,” reflects the hope for the flourishing of future studies on termitophily in Thailand following this groundbreaking discovery. 

Distribution. Thailand (Chiang Mai, Nakhon Ratchasima)  


Ryōta SEKI, Wei-Ren LIANG, Sasitorn HASIN, Chun-I CHIU and Munetoshi MARUYAMA. 2026. The First termitophilous Ladybird Beetle: Scymnus (Pullus) tshunsii sp. n. (Coleoptera: Coccinellidae) from Microcerotermes nests in Thailand. Eur. J. Entomol. 123: 165-174. DOI: doi.org/10.14411/eje.2026.017  [May 14, 2026]