Examining the Relationship Between Microbes and Nitrogen in Soil

This episode of "The Poor Proles Almanac" explores the crucial role microbes play in the nitrogen cycle within the soil. The hosts, Andy and Elliot, along with guest host Matt, break down complex biological processes into an accessible and humorous discussion. They emphasize how understanding these microbial interactions can help both home gardeners and large-scale agricultural operations move away from commercial fertilizers and embrace more sustainable practices. Soil as a Complex Ecosystem The episode begins by recapping the basic principles of soil ecology covered in previous episodes, reminding listeners that soil is not simply inert dirt, but a dynamic ecosystem teeming with life. Plants form the foundation of this ecosystem by releasing exudates, which feed bacteria and fungi. These microbes then make nutrients more accessible to the plants, creating a mutually beneficial relationship. The hosts explain that this complex web of interactions extends beyond just plants and microbes, encompassing organisms like protozoa, nematodes, and arthropods. This diversity within the soil food web is essential for maintaining a healthy balance and ensuring the continuous cycling of nutrients. The Importance of Nitrogen The episode focuses specifically on nitrogen, a vital nutrient for plant growth, and how microbes impact its availability within the soil. When organisms within the soil food web die or are consumed, some of the nitrogen they contain is released as waste in the form of ammonium. Special bacteria, known as nitrifying bacteria, then convert this ammonium into nitrates. The Role of pH in Nitrogen Availability The hosts emphasize that the pH of the soil plays a crucial role in determining whether nitrogen is present as ammonium or nitrates. Nitrifying bacteria thrive in high pH, bacterially dominated soils. In low pH soils, however, these bacteria are less prevalent, and the nitrogen remains in the form of ammonium. The episode highlights the importance of understanding these pH dynamics when it comes to fertilizing plants. Commercial fertilizers are almost always in the form of nitrates, which are suitable for high pH soils but not for plants that prefer low pH conditions. This disparity underscores the importance of tailoring fertilization practices to the specific needs of plants and their corresponding soil environment. The Interplay of Soil Structure and Microbial Activity The discussion then shifts to soil structure, particularly the cation exchange capacity (CEC), which refers to the ability of the soil to hold onto nutrients and water. The hosts explain that lower pH soils, like those found in forests, generally have a lower CEC. However, the presence of organic matter in forest soils can help mitigate this by providing similar properties to neutral pH soils. The hosts underscore the critical role of hydroscopic water, a thin film of water that surrounds soil particles and is essential for microbial survival. Even in dry conditions, this hydroscopic water remains bound to the soil, providing a crucial lifeline for the microbial community. Bacteria and Fungi: Key Players in Decomposition The episode then goes into detail about two primary decomposers in the soil food web: bacteria and fungi. Bacteria are the second most common decomposers, breaking down organic matter into simpler molecules like sugars, fatty acids, and amino acids. Fungi, on the other hand, are the number one decomposers worldwide, capable of breaking down more complex materials like lignin and cellulose, as well as insect shells and even bones. Their ability to move nutrients across soil horizons makes fungi particularly important in building soil structure and fertility. Fungal Dominance in Forests The hosts connect the dominance of fungi in forest soils to the lower pH environment typically found in forests. Fungi are more tolerant of low pH conditions than bacteria, explaining why forests tend to have a higher fungal-to-bacterial ratio. The episode explains that as fungi break down organic matter, they release enzymes that are acidic, further lowering the soil pH. This acidification, in turn, inhibits the growth of nitrifying bacteria, leading to a greater abundance of ammonium, the preferred form of nitrogen for trees. Practical Applications for Gardeners The hosts offer practical advice for gardeners based on these microbial principles. For instance, they suggest building bacterially dominated mulches using green materials like grass clippings to promote bacterial activity and reduce weeds. Conversely, using surface mulches composed of materials like shredded leaves can encourage fungal activity, which is beneficial for trees and other plants that prefer ammonium. The Importance of Soil Building The episode concludes by emphasizing the importance of building healthy soil by fostering a diverse microbial community. Adding fertilizers alone is not a sustainable solution, as the nutrients are quickly lost without the microbes to cycle them back into the soil. By understanding the intricate relationship between microbes and nitrogen, gardeners and farmers can cultivate thriving ecosystems that support healthy plant growth while minimizing reliance on synthetic inputs. For sources, transcripts, and to read more about this subject, visit: www.agroecologies.org To support this podcast, join our patreon for early, commercial-free episode access at https://www.patreon.com/poorprolesalmanac For PPA Restoration Content, visit: www.restorationagroecology.com For PPA Merch, visit: www.poorproles.com For PPA Native Plants, visit: www.nativenurseries.org To hear Tomorrow, Today, our sister podcast, visit: www.tomorrowtodaypodcast.org/