Photosynthesis at Night

Name: Photosynthesis at Night
Price: 46.50 AUD
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ISBN: 9798235783959

A Hidden Lunar-Energy Conversion Mechanism in Leaves

Elorvine Shaxmund

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English

Abdul Ahad Ansari
11 May 2026

Quantum physics (quantum mechanics & quantum field theory); Botany & plant sciences

Summary
Details

Every biology textbook in the world contains the same diagram. On the left: sunlight. In the middle: the leaf. On the right: life. The diagram is correct. This book argues it is incomplete.

On a clear full moon night, the photon flux reaching a leaf is approximately 0.001 micromoles per square metre per second. That is roughly one million times weaker than noon sunlight and several thousand times below the classical light compensation point of even the most shade-adapted plant known to science. Conventional plant biology has treated this as effectively zero for photosynthetic purposes. For decades, no one questioned that assumption with rigorous instruments and controlled conditions.

Then someone left the gas exchange system running overnight.

Photosynthesis at Night is the first book-length scientific treatment of a genuinely new and controversial hypothesis in plant biology: that leaves possess molecular machinery capable of harvesting the photon flux of moonlight and converting it into biochemically usable energy through low-flux photosynthetic pathways that operate below the classical compensation point and have not previously been characterised. Professor Elorvine Shaxmund has spent nearly two decades building the experimental and theoretical case for this phenomenon, which is provisionally designated nocturnal photon harvesting.

None of this is proof of a new mechanism. All of it is evidence that something is happening in leaves under moonlight that our current framework does not explain, and that the investigation of it could change how we understand the relationship between plants and light.

The book moves from the established biochemistry of classical photosynthesis through the precise physics of moonlight as an energy source, through the cellular biology of the night leaf, through the experimental evidence, to the molecular mechanism the author proposes, to the ecological and evolutionary implications, to the quantum biology that makes the hypothesis physically plausible, and finally to the agricultural and philosophical dimensions of a claim that forces us to look more carefully at what plants do in the dark.

Inside this book you will find:

Precise quantification of the moonlight photon flux and why its apparent impossibility as a photosynthetic energy source deserves re-examination Original gas exchange, fluorescence, and metabolite data from controlled moonlight simulation experiments on six shade-adapted plant species A proposed molecular mechanism involving NDH-complex-mediated cyclic electron flow, dark-adapted antenna sensitivity enhancement, and phytochrome-mediated respiratory suppression Analysis of FLUXNET eddy covariance data and MODIS satellite temperature records for ecosystem-scale evidence The quantum biology of single-photon processing in dark-adapted LHCII and what it implies for low-flux photosynthesis Documented correlations between lunar phase and plant growth rate, stomatal aperture, seed germination, and secondary metabolite production across multiple species Evidence from circalunar clock biology in marine organisms and its implications for a plant circalunar photosensory system An honest accounting of the hypothesis's vulnerabilities, the experiments that would confirm or refute it, and the research programme needed to settle the question

Photosynthesis at Night is essential reading for plant biologists, biophysicists, ecologists, and anyone who wants to understand how science advances at the edge of what is considered possible.

By: Elorvine Shaxmund
Imprint: Abdul Ahad Ansari
Dimensions: Height: 229mm, Width: 152mm, Spine: 10mm
Weight: 240g
ISBN: 9798235783959
Pages: 174
Publication Date: 11 May 2026
Audience: General/trade , ELT Advanced
Format: Paperback
Publisher's Status: Active